Compositions and methods for using genetically modified enzymes

ABSTRACT

The disclosure relates to the biosynthesis of cannabinoids and related prenylated phenolic compounds using recombinant enzymes. In particular, the disclosure provides recombinant mutant ORF2 enzymes engineered to produce a greater amount of a desired product, or to have a greater ability to catalyze a reaction using a desired substrate, as compared to WT ORF2. The disclosure also provides methods of preparing such ORF2 mutant enzymes; as well as methods of use thereof in improving the biosynthesis of cannabinoids and related prenylated phenolic compounds.

CROSS REFERENCE TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 16/682,845, filed on Nov. 13, 2019, which is a continuation of the International Application No. PCT/US2019/023046, filed Mar. 19, 2019, which claims the benefit of priority under 35 U.S.C. § 119(e) of U.S. Provisional Patent Application No. 62/645,081, filed Mar. 19, 2018, the disclosure of each of which is incorporated herein by reference in their entireties for all purposes.

INCORPORATION BY REFERENCE OF SEQUENCE LISTING

The contents of the text file named “REBI_001_01US_SeqList_ST25.txt”, which was created on Nov. 12, 2019 and is 1,190 megabytes in size, are hereby incorporated by reference in its entirety.

TECHNICAL FIELD

The present disclosure is generally related to the biosynthesis of organic compounds, such as cannabinoids, using recombinant enzymes.

BACKGROUND

Cannabinoids include a group of more than 100 chemical compounds mainly found in the plant Cannabis sativa L. Due to the unique interaction of cannabinoids with the human endocannabinoid system, many of these compounds are potential therapeutic agents for the treatment of several medical conditions. For instance, the psychoactive compound Δ⁹-tetrahydrocannabinol (Δ⁹-THC) has been used in the treatment of pain and other medical conditions. Several synthetic Cannabis-based preparations have been used in the USA, Canada and other countries as an authorized treatment for nausea and vomiting in cancer chemotherapy, appetite loss in acquired immune deficiency syndrome and symptomatic relief of neuropathic pain in multiple sclerosis.

Cannabinoids are terpenophenolic compounds, produced from fatty acids and isoprenoid precursors as part of the secondary metabolism of Cannabis. The main cannabinoids produced by Cannabis are Δ⁹-tetrahydrocannabidiol (THC), cannabidiol (CBD) and cannabinol (CBN), followed by cannabigerol (CBG), cannabichromene (CBC) and other minor constituents. Currently, Δ⁹-THC and CBD are either extracted from the plant or chemically synthesized. However, agricultural production of cannabinoids faces challenges such as plant susceptibility to climate and diseases, low content of less-abundant cannabinoids, and need for extraction of cannabinoids by chemical processing. Furthermore, chemical synthesis of cannabinoids has failed to be a cost-effective alternative mainly because of complex synthesis leading to high production cost and low yields.

Therefore, there is a pressing need for biotechnology-based synthetic biology approaches which can enable the synthesis of high-quality cannabinoids in a cost-effective and environmentally friendly manner.

SUMMARY

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% identity to SEQ ID NO: 1, wherein said amino acid sequence comprises at least one amino acid substitution to SEQ ID NO: 1, wherein said at least one amino acid substitution does not comprise an alanine substitution at a position selected from the group consisting of amino acid positions 47, 64, 110, 121, 123, 126, 161, 175, 177, 214, 216, 288, 294, and 295.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% identity to SEQ ID NO: 1, wherein said amino acid sequence comprises at least one amino acid substitution to SEQ ID NO: 1, wherein at least one of said at least one amino acid substitution to SEQ ID NO: 1 is located on a position chosen from the group consisting of amino acid positions 1-46, 48-63, 65-109, 111-120, 122, 124, 125, 127-160, 162-174, 176, 178-213, 215, 217-287, 289-293, and 296-307.

In some cases, the amino acid sequence has at least 96%, 97%, 98%, or 99% sequence identity to SEQ ID NO: 1. In some cases, the at least one amino acid substitution comprises 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 amino acid substitutions to SEQ ID NO: 1. In some cases, said at least one of said at least one amino acid substitution is located on a position chosen from the group consisting of amino acid positions 17, 25, 38, 49, 53, 106, 108, 112, 118, 119, 121, 123, 161, 162, 166, 173, 174, 177, 205, 209, 213, 214, 216, 219, 227, 228, 230, 232, 271, 274, 283, 286, 288, 294, 295, and 298. In some cases, said at least one of said at least one amino acid substitution is located on a position chosen from the group consisting of amino acid positions 17, 25, 38, 49, 53, 106, 108, 112, 118, 119, 162, 166, 173, 174, 205, 209, 213, 219, 227, 228, 230, 232, 271, 274, 283, 286, 288, and 298.

In some cases, said at least one of said at least one amino acid substitution is chosen from the group consisting of A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W.

In some cases, said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a ratio of an amount of CBGA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295F, Q295L, Q295V, Q295I, Q295M, Q295E, Q295C, Q295W, Q295G, Q295T, Q295P, Q295S, Q295D, Q295N, Q295K, and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 139-143; 145-150; and 153-157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161Y, Q161R, Q161D, Q161F, Q161K, Q161M, Q161E, Q161L, Q161S, Q161T, Q161N, and Q161I. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 120-122; 124-129; 132-134; and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214H, S214R, S214Q, S214E, S214K, S214M, S214I, S214L, S214N, S214D, S214Y, S214F, and S214T. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 160-162; 164-169; 171, 172, 174, and 177. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288P, Y288A, Y288L, Y288C, Y288I, Y288M, Y288G, Y288T, Y288S, Y288W, Y288D, Y288E, Y288N, Y288K, Y288R, and Y288H. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 98-110; 112-114; and 116.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions to SEQ ID NO: 1 selected from the group consisting of

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T and S214R; S177W and Q295A; S214R and Q295F; Q161S and 5214R; S177W and 5214R; Q161S and Q295L; Q161S and Q295F; V49A and 5214R; A53T and Q295F; Q161S and S177W; Q161S, V294A and Q295W; A53T, Q161S and Q295W; A53T and S177W; A53T, Q161S, V294A and Q295W; A53T, V294A and Q295A; V49A and Q295L; A53T, Q161S, V294N and Q295W; A53T and Q295A; Q161S, V294A and Q295A; A53T and Q295W; A53T, V294A and Q295W; A53T, Q161S and Q295A; A53T, Q161S, V294A and Q295A; and A53T, Q161S, V294N and Q295A. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 275-294; and 296-299.

In some cases, said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a ratio of an amount of 5-GOA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H and Q295R. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 144 and 152. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161W, Q161G, Q161V, Q161C, and Q161P. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 118, 119, 123, 130, 131, 135, and 136. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214V, S214C, S214W, S214P, S214A, and S214G. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 159, 163, 170, 175 and 176. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A53T and Q161S; A53T, Q161S and V294A; A53T, Q161S and V294N; A53T and V294A; and V49A and Q161S. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 272-274, 295, and 300.

In some cases, said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said combined amount is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H, Q295F, Q295W, Q295M, Q295D, Q295L, and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 142, 144, 147, 148, 156 and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161Y, Q161L, Q161R, Q161C, Q161T, Q161S, Q161F, Q161I, and Q161P. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 122, 124, 125, 127, 130, 132-134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214G and S214H. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 163 and 164. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288L, Y288P, Y288I, Y288A, Y288F, Y288C, Y288M, and Y288T. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 98, 99, 102, 105, 107, 108, 110, and 114.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T and V294A; A53T, Q161S and V294A; A53T, Q161S and V294N; Q161S, V294A and Q295A; A53T, Q161S and Q295A; A53T, Q161S, V294A and Q295A; A53T, Q161S, V294N and Q295A; A53T and Q295W; Q161S, V294A and Q295W; A53T, Q161S and Q295W; A53T, V294A and Q295W; A53T, Q161S, V294A and Q295W; A53T, Q161S, V294N and Q295W; S177W and Q295A; A53T and S177W; A53T and Q295F; A53T and 5214R; A53T and Q161S; Q161S and Q295F; Q161S and Q295L; and S214R and Q295F. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 272-274, 276, 277, 279-287; 290, 293-297, and 299.

In some cases, said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide has a CBGA production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said CBGA production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295F, Q295M, Q295W, Q295L, Q295I, Q295C, Q295G, Q295V, Q295D, and Q295H. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 139, 140, 142-145, 147, 148, 155 and 156. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161Y, Q161R, Q161F, Q161L, Q161S, Q161T, Q161I, Q161M, and Q161K. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 122, 124-128, 132-134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214H, S214Q, and S214R. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 164, 171 and 172. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288L, Y288P, Y288I, Y288A, Y288F, Y288C, Y288M, and Y288T. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 98, 99, 102, 105, 107, 108, 110 and 114. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T_Q161S_V294A; A53T_Q161S_V294N; A53T_Q295A; Q161S_V294A_Q295A; A53T_Q161S_Q295A; A53T_V294A_Q295A; A53T_Q161S_V294A_Q295A; A53T_Q161S_V294N_Q295A; A53T_Q295W; Q161S_V294A_Q295W; A53T_Q161S_Q295W; A53T_V294A_Q295W; A53T_Q161S_V294A_Q295W; A53T_Q161S_V294N_Q295W; S177W_Q295A; S177W_S214R; Q161S_S177W; A53T_S177W; V49A_S214R; A53T_Q295F; A53T_S214R; A53T_Q161S; Q161S_Q295F; Q161S_Q295L; Q161S_S214R; and S214R_Q295F. In some cases, the recombinant polypeptide of any one of claims Error! Reference source not found.-Error! Reference source not found., wherein said amino acid sequence is selected from the group consisting of SEQ ID NOs: 273-290, and 292-299.

In some cases, said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide has a 5-GOA production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said 5-GOA production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 144 and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161C, Q161L, Q161T, Q161P, Q161I, and Q161S. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 125, 127, 130, 133 and 134. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is S214G. In some cases, said amino acid sequence is SEQ ID NO: 163. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A53T_V294A; V49A_Q295L; and V49A_Q161S. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 272, 291, and 300.

In some cases, said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a ratio of an amount of CBGVA to a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295F, Q295I, Q295W, Q295V, Q295M, Q295L, Q295E, Q295H, Q295P, Q295C, Q295T and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 139, 141, 142, 144, 145, 147, 148, 150, 154, 155, 156, and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161Y, Q161R, Q161K, Q161E, Q161S, Q161D, Q161F, Q161T, Q161G, and Q161P. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 120, 121, 122, 123, 124, 126, 130, 132, 133, 134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214R, S214H, S214K, S214E, S214Q, S214L, S214M, S214Y, 52141, S214F, S214D, S214N, S214G, S214T, and S214V. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 160, 161, 162, 163, 164, 165, 166, 167, 168, 169, 171, 172, 174, 175, and 177. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288I, Y288L, Y288M, Y288P, Y288T, Y288W, Y288C, and Y288G. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 103, 105, 107, 108, 110, 114, and 116.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitution to SEQ ID NO: 1 selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T_S214R, Q161S_Q295L, S177W_Q295A, Q161S_Q295F, A53T_Q295F, S214R_Q295F, Q161S_S177W, Q16S_S214R, A53T_Q161S, A53T_V294A, A53T_S177W, A53T_Q161S_V294A_Q295W, A53T_V294A_Q295W, A53T_Q161S_V294N_Q295W, A53T_Q161S_V294A, A53T_Q295W, A53T_Q161S_V294N, Q161S_V294A_Q295A, A53T_Q161S_V294A_Q295A, A53T_Q161S_Q295W, A53T_Q161S_V294N_Q295A, A53T_Q161S_Q295A, A53T_Q295A, S177W_S214R, A53T_V294A_Q295A, Q161S_V294A_Q295W_V49A_S214R, and V49A_Q295L. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 275-294; and 296-299.

In some cases, said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a ratio of an amount of 5-GDVA to a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295G, Q295D, Q295S, Q295N, Q295K, and Q295R. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 143, 146, 149, 153, and 153. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161V, Q161L, Q161I, Q161M, Q161W, and Q161C. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 125, 127, 128, 135, and 136. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214W, S214P, and S214C. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 159, 170, and 176. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288H, Y288S, Y288N, Y288K, Y288D, Y288R, and Y288E. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 100, 101, 104, 106, 109, 112, and 113.

In some cases, said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said combined amount is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295D, Q295F, and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 142, and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161C, Q161M, Q161R, Q161F, Q161T, Q161S, Q161Y, Q161L, and Q161I. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 122, 124, 125, 127, 128, 132, 133, 134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214R and S214H. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 164 and 172. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288I, Y288L, Y288M, Y288P, Y288T, and Y288W. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 102, 105, 107, 108, 110, 114, and 116.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T_S214R, Q161S_Q295L, S177W_Q295A, Q161S_Q295F, A53T_Q295F, S214R_Q295F, Q161S_S177W, Q161S_S214R, A53T_Q161S, and A53T_V294A. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 224, 272, 287, 289, 293, 294, 296, 297, 298, and 299.

In some cases, said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide has a CBGVA production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said CBGVA production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295F, Q295W, Q295H, Q295I, Q295M, Q295L, Q295Y, and Q295D. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 142, 144, 145, 147, 148, 156, and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161H, Q161R, Q161Y, Q161S, Q161F, Q161K, and Q161T. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 122, 124, 126, 132, 133, 134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214R, S214H, S214D, S214E, S214N, S214K, S214Q, and S214T. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 160, 161, 164, 166, 169, 171, 172, and 174. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288I, Y288L, Y288M, Y288P, Y288T, Y288W, Y288C, and Y288G. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 103, 105, 107, 108, 110, 114, and 116.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T_S214R, S177W_Q295A, S214R_Q295F, Q16S_S214R, S177W_S214R, Q161S_Q295L, Q161S_Q295F, V49A_S214R, A53T_Q295F, Q161S_S177W, Q161S_V294A_Q295A, A53T_Q161S_Q295W, A53T_S177W, A53T_V294A_Q295W, A53T_Q295W, Q161S_V294A_Q295W, V49A_Q295L, A53T_Q161S_V294A_Q295W A53T_Q161S_V294N_Q295A, A53T_Q161S_Q295A, A53T_Q161S_V294A_Q295A A53T_Q161S_V294N_Q295W, A53T_Q161S, A53T_Q161S_V294A, A53T_Q161S_V294N, and A53T_V294A_Q295A. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 272-274, 276-277, and 279-300.

In some cases, said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide has a 5-GDVA production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said 5-GDVA production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295D and Q295Y. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140 and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161C, Q161M, Q161T, Q161L, Q161F, and Q161I. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 122, 125, 127, 128, and 134. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions.

In some cases, said two or more amino acid substitutions are selected from the group consisting of: A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W.

In some cases, said two or more amino acid substitutions are selected from the group consisting of: Q161S_Q295F, A53T_Q295F, S214R_Q295F, Q161S_S177W, Q16S_S214R, A53T_S177W, A53T_V294A_Q295W, A53T_Q161S_V294A_Q295W, A53T_Q295W, Q161S_V294A_Q295A, A53T_Q161S_V294N_Q295W, A53T_Q161S, A53T_Q161S_Q295W, S177W_S214R, A53T_Q161S_V294A_Q295A, A53T_Q161S_V294N_Q295A, A53T_Q161S_Q295A, A53T_Q161S_V294A, Q161S_V294A_Q295W, and A53T_Q161S_V294N. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 273, 274, 276, 277, 279-290, and 293-300.

In some cases, said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a ratio of an amount of CBG to a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295G, Q295M, Q295H, Q295F, Q295C, Q295L, and Q295S. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 139, 142, 143, 144, 147, 148, and 153. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161F, Q161Y, Q161L, Q161H, Q161M, Q161I, Q161C, Q161S, Q161T, Q161D, Q161G, Q161W, and Q161N. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 120, 122, 123, 124, 125, 127, 128, 129, 133, 134, 136, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214Q, S214H, S214E, S214N, S214F, S214L, S214I, S214M, S214K, and S214D. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 160, 161, 162, 164, 165, 166, 167, 168, 169, and 171. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288L, Y288I, Y288M, Y288T, Y288C, Y288A, Y288W, Y288P, Y288S, Y288G, and Y288R. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 98, 99, 102, 103, 105, 107, 108, and 109-117.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitution to SEQ ID NO: 1 selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, 5214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T, Q161S, V294A, and Q295A; A53T, Q161S, and Q295A; A53T, Q161S, and V294A; A53T, Q161S, V294N, and Q295A; A53T, Q161S, and V294N; Q161S, V294A, and Q295A; A53T and V294A; A53T, Q161S, and Q295W; A53T, V294A, and Q295A; A53T, Q161S, V294N, and Q295W; A53T, Q161S, V294A, and Q295W; Q161S and Q295L; A53T and Q161S; Q161S, V294A, and Q295W; Q161S and Q295F; A53T and Q295W; A53T and Q295A; A53T, V294A, and Q295W; A53T and Q295F; A53T and S177W; S177W and Q295A; Q161S and S177W; S214R and Q295F; A53T and 5214R; Q165 and 5214R; Q161S and Q295L; A53T and Q161S; Q161S and Q295F; A53T and Q295F; and A53T and V294A. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 275-294; and 296-299.

In some cases, said recombinant polypeptide converts O and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a ratio of an amount of 5-GO to a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said ratio is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295Y, Q295N, Q295D, Q295W, Q295T, Q295V, Q295P, Q295I, Q295R, Q295K, and Q295E. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 141, 145, 146, 149, 150, 152, 154, 155, 156, and 157. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161R, Q161K, and Q161P. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 126, 130, and 132. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214W, S214V, S214T, S214R, S214C, S214P, and S214G. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 159, 163, 170, 172, 174, 175, and 176. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288N, Y288H, Y288D, Y288K, and Y288E. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 100, 101, 104, 106, and 109. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of V49A and Q295L; V49A and S214R; and S177W and S214R. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 288, 291, and 292.

In some cases, said recombinant polypeptide converts O and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said combined amount is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H, Q295M, Q295G, Q295F, Q295W, and Q295D. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 140, 142, 143, 144, 148, and 156. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161F, Q161Y, Q161L, Q161H, Q161I, Q161M, Q161C, Q161T, Q161S, Q161D, Q161G, Q161R, Q161N, and Q161W. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 120, 122, 123, 124, 125, 127, 128, 129, 132, 133, 134, 136, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214Q, S214H, S214E, S214N, S214F, S214I, S214L, and S214M. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 161, 162, 164, 165, 167, 168, 169, and 171. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288L, Y288I, Y288M, Y288T, Y288C, and Y288P. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 105, 107, 108, 110, and 114.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) Q161S and Q295L; A53T and Q161S; Q161S and Q295F; A53T, Q161S, V294A, and Q295A; A53T, Q161S, and Q295A; A53T and Q295F; A53T, Q161S, and V294A; A53T, Q161S, V294N, and Q295A; A53T, Q161S, and V294N; Q161S, V294A, and Q295A; A53T and V294A; A53T, Q161S, and Q295W; A53T, V294A, and Q295A; A53T, Q161S, V294N, and Q295W; A53T, Q161S, V294A, and Q295W; Q161S, V294A, and Q295W; A53T and S177W; A53T and Q295W; A53T and Q295W; A53T and Q295A; A53T, V294A, and Q295W; S177W and Q295A; and Q161S and S177W.

In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 214, 224, 272, 273, 274, 275, 276, 277, 278, 279, 280, 281, 282, 283, 284, 285, 286, 287, 289, 290, 293, 296, and 297. In some cases, said recombinant polypeptide converts O and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide has a CBG production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said CBGVA production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H, Q295M, Q295G, Q295F, Q295W, and Q295C. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 139, 142, 143, 144, 148, and 156. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161F, Q161Y, Q161L, Q161H, Q161M, Q161I, Q161C, Q161S, Q161T, Q161D, Q161G, and Q161W. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 120, 122, 123, 124, 125, 127, 128, 133, 134, 136, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214Q, S214H, S214E, S214N, S214F, 52141, S214L, and S214M. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 161, 162, 164, 165, 167, 168, 169, and 171. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288L, Y288I, Y288M, Y288T, Y288C, and Y288W. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 105, 107, 108, 114, and 116.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 comprises two or more amino acid substitutions selected from the group consisting of:

(a) A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, 52141, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W; or

(b) A53T_Q161S_V294A_Q295W, A53T_Q161S_V294A, Q161S_Q295L, A53T_Q295F, A53T_Q295A, A53T_Q161S_V294N, Q161S_Q295F, A53T_Q161S_Q295W, A53T_Q161S, A53T_S177W, Q161S_V294A_Q295W, A53T_V294A, A53T_V294A_Q295W, S177W_Q295A, Q161S_S177W, and A53T_S214R.

In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 224, 272, 273, 275, 280, 282, 283, 284, 285, 287, 289, 290, 293, 294, 296, and 297. In some cases, said recombinant polypeptide converts O and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide has a 5-GO production potential that is higher than wild-type ORF2 enzyme under the same condition. In some cases, said 5-GO production potential is 10%, 20%, 30%, 40%, 50%, 60%, 70%, 80%, 90%, 100%, 150%, or 200% higher than wild-type ORF2 enzyme under the same condition. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H, Q295W, and Q295F. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 142, 144, and 156. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161L, Q161Y, Q161F, Q161I, Q161C, Q161M, Q161T, Q161H, Q161S, Q161R, Q161G, Q161N, and Q161D. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 119, 120, 122, 123, 124, 125, 127, 128, 129, 132, 133, 134, and 137. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is S214E, 52141, S214T, S214F, S214M, S214L, S214G, S214N, S214V, S214C, S214D, and S214Y. In some cases, said amino acid sequence is SEQ ID NO: 159, 160, 161, 162, 163, 165, 167, 168, 169, 174, 175, and 177. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is Y288F and Y288L. In some cases, said amino acid sequence is SEQ ID NO: 102 and 107.

In another aspect, the disclosure provides recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a ratio of an amount of CBGA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a ratio of an amount of 5-GOA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide produces a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide has a CBGA production potential that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts olivetolic acid (OA) and geranyl diphosphate (GPP) to cannabigerolic acid (CBGA) and 5-geranyl olivetolate (5-GOA), and wherein said recombinant polypeptide has a 5-GOA production potential that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a ratio of an amount of CBGVA to a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition.

In another aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a ratio of an amount of 5-GDVA to a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same condition.

In another aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide has a CBGVA production potential that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to CBGVA and 5-GDVA, and wherein said recombinant polypeptide has a 5-GDVA production potential that is higher than wild-type ORF2 enzyme under the same condition.

In another aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a ratio of an amount of CBG to a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a ratio of an amount of 5-GO to a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide produces a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide has a CBG production potential that is higher than wild-type ORF2 enzyme under the same condition.

In one aspect, the disclosure provides a recombinant polypeptide comprising an amino acid sequence with at least 95% sequence identity to SEQ ID NO: 1, wherein said recombinant polypeptide converts Olivetol (O) and geranyl diphosphate (GPP) to CBG and 5-GO, and wherein said recombinant polypeptide has a 5-GO production potential that is higher than wild-type ORF2 enzyme under the same condition.

In some cases, said amino acid sequence has at least 96%, 97%, 98%, or 99% sequence identity to SEQ ID NO: 1. In some cases, said at least one amino acid substitution comprises 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, or 15 amino acid substitutions to SEQ ID NO: 1. In some cases, said at least one amino acid substitution is located on a position chosen from the group consisting of 1-46, 48-63, 65-109, 111-120, 122, 124, 125, 127-160, 162-174, 176, 178-213, 215, 217-287, 289-293, and 296-307. In some cases, said amino acid sequence comprises said at least one amino acid substitution to SEQ ID NO: 1 at a position selected from the group consisting of A17, C25, Q38, V49, A53, M106, A108, E112, K118, K119, Y121, F123, Q161, M162, D166, N173, L174, S177, G205, C209, F213, S214, Y216, L219, D227, R228, C230, A232, V271, L274, Y283, G286, Y288, V294, Q295, and L298. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A17T, C25V, Q38G, V49A, V49L, V49S, A53C, A53D, A53E, A53F, A53G, A53H, A53I, A53K, A53L, A53M, A53N, A53P, A53Q, A53R, A53S, A53T, A53V, A53W, A53Y, M106E, A108G, E112D, E112G, K118N, K118Q, K119A, K119D, Y121W, F123A, F123H, F123W, Q161A, Q161C, Q161D, Q161E, Q161F, Q161G, Q161H, Q161I, Q161K, Q161L, Q161M, Q161N, Q161P, Q161R, Q161S, Q161T, Q161V, Q161W, Q161Y, M162A, M162F, D166E, N173D, L174V, S177E, S177W, S177Y, G205L, G205M, C209G, F213M, S214A, S214C, S214D, S214E, S214F, S214G, S214H, S214I, S214K, S214L, S214M, S214N, S214P, S214Q, S214R, S214T, S214V, S214W, S214Y, Y216A, L219F, D227E, R228E, R228Q, C230N, C230S, A232S, V271E, L274V, Y283L, G286E, Y288A, Y288C, Y288D, Y288E, Y288F, Y288G, Y288H, Y288I, Y288K, Y288L, Y288M, Y288N, Y288P, Y288Q, Y288R, Y288S, Y288T, Y288V, Y288W, V294A, V294F, V294N, Q295A, Q295C, Q295D, Q295E, Q295F, Q295G, Q295H, Q295I, Q295K, Q295L, Q295M, Q295N, Q295P, Q295R, Q295S, Q295T, Q295V, Q295W, Q295Y, L298A, L298Q, and L298W. In some cases, the recombinant polypeptide comprises any one of the recombinant polypeptides disclosed herein.

In some aspects, the disclosure provides a nucleic acid molecule, comprising a nucleotide sequence encoding any one of the recombinant polypeptides disclosed herein, or a codon degenerate nucleotide sequence thereof.

In one aspect, the disclosure provides a nucleic acid molecule, comprising a nucleotide sequence with at least 95% sequence identity to a sequence selected from the group consisting of SEQ ID NO: 1-198 or a codon degenerate nucleotide sequence thereof. In some cases, the nucleotide sequence comprises at least 500, 600, 700, 800, or 900 nucleotides. In some cases, said nucleic acid molecule is isolated and purified.

In one aspect, the disclosure provides a cell vector, construct or expression system comprising any or more of the nucleic acid molecules disclosed herein.

In one aspect, the disclosure provides a cell, comprising said cell vector, construct or expression system disclosed herein. In some cases, said cell is a bacteria, yeast, insect, mammalian, fungi, vascular plant, or non-vascular plant cell. In some cases, said cell is a microalgae cell. In some cases, said cell is an E. coli cell.

In one aspect, the disclosure provides a plant comprising any cell disclosed herein. In some cases, the plant is a terrestrial plant.

In one aspect, the disclosure provides a method of producing a prenylation product, comprising: contacting said recombinant polypeptide of any one of claims 1-198 with a substrate and a donor, thereby producing said prenylation product. In some cases, said substrate comprises olivetolic acid (OA), divarinolic acid (DVA), olivetol (O), resveratrol, piceattanol and related stilbenes, naringenin, apigenin and related flavanones and flavones, respectively, Isoliquiritigenin, 2′-O-methylisoliquiritigenin and related chalcones, catechins and epi-catechins of all possible stereoisomers, biphenyl compounds such as 3,5-dihydroxy-biphenyl, benzophenones such as phlorobenzophenone, isoflavones such as biochanin A, genistein, daidzein, 2,4-dihydroxybenzoic acid, 1,3-benzenediol, 2,4-dihydroxy-6-methylbenzoic acid; 1,3-Dihydroxy-5-methylbenzene; 2,4-Dihydroxy-6-aethyl-benzoesaeure; 5-ethylbenzene-1,3-diol 2,4-dihydroxy-6-propylbenzoic acid; 5-propylbenzene-1,3-diol; 2-butyl-4,6-dihydroxybenzoic acid; 5-butylbenzene-1,3-diol; 2,4-dihydroxy-6-pentyl-benzoic acid; 5-pentylbenzene-1,3-diol; 5-hexylbenzene-1,3-diol; 2-heptyl-4,6-dihydroxy-benzoic acid; 5-heptylbenzene-1,3-diol; 5-Dodecylbenzene-1,3-diol; 5-nonadecylbenzene-1,3-diol; 1,3-Benzenediol; 3,4′,5-Trihydroxystilbene; 4′5-Tetrahydroxystilbene; 1,2-Diphenylethylene; 2-Phenylbenzopyran-4-one; 2-Phenylchroman-4-one; 1,3-benzenediol; 5,7,4′-Trihydroxyflavone; (E)-1-(2,4-dihydroxyphenyl)-3-(4-hydroxyphenyl)prop-2-en-1-one; 4,4′-dihydroxy-2′-methoxychalcone; 1,3-Diphenylpropenone; (2R,3 S)-2-(3,4-Dihydroxyphenyl)chroman-3,5,7-triol; (2R,3R)-2-(3,4-Dihydroxyphenyl)-3,5,7-chromanetriol; Phenylbenzene; 5-Phenylresorcinol; diphenylmethanone; 3-phenyl-4H-chromen-4-one; 5,7-Dihydroxy-3-(4-methoxyphenyl)-4H-chromen-4-one; 4′,5,7-Trihydroxyisoflavone; 4′,7-Dihydroxyisoflavone; 4-Hydroxy-6-methyl-2H-pyran-2-one; 1,6-DHN; or any combination thereof. In some cases, said substrate comprises olivetolic acid (OA), olivetol (O), or divarinic acid (DVA). In some cases, said donor comprises dimethylallyl pyrophosphate (DMAPP), geranyl pyrophosphate (GPP), or farnesyl pyrophosphate (FPP). In some cases, said substrate comprises olivetolic acid (OA) and said donor comprises geranyl pyrophosphate (GPP), and wherein said prenylation product comprises CBGA, 5-GOA, or a prenylated product on any other position on an aromatic ring of said substrate.

In some cases, said prenylation product comprises CBGA and 5-GOA, and wherein said recombinant polypeptide produces a ratio of an amount of CBGA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same acid condition. In some cases, said prenylation product comprises CBGA and 5-GOA, and wherein said recombinant polypeptide produces a ratio of an amount of 5-GOA to a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same acid condition. In some cases, said prenylation product comprises CBGA and 5-GOA, and wherein said recombinant polypeptide produces a combined amount of CBGA and 5-GOA that is higher than wild-type ORF2 enzyme under the same acid condition. In some cases, said prenylation product comprises CBGA and 5-GOA, and wherein said recombinant polypeptide has a CBGA production potential that is higher than wild-type ORF2 enzyme under the same acid condition.

In some cases, said acid condition has a pH of less than 7. In some cases, the method of claim 219, wherein said acid condition has a pH of less than 6. In some cases, said acid condition has a pH of about 5.3. In some cases, said substrate comprises olivetol (O) and said donor comprises geranyl pyrophosphate (GPP), and wherein said prenylation product comprises CBG, 5-GO or a prenylated product on any other position on an aromatic ring of said substrate. In some cases, said substrate comprises divarinic acid (DVA) and said donor comprises geranyl pyrophosphate (GPP), and wherein said prenylation product comprises CBGVA, 5-GDVA or a prenylated product on any other position on an aromatic ring of said substrate.

In some cases, said contacting comprises contacting said substrate and said donor with said recombinant polypeptide in a cell. In some cases, said cell is a bacteria, yeast, insect, mammalian, fungi, microalgae, or plant cell. In some cases, said contacting comprises contacting said substrate and said donor with said recombinant polypeptide in a cell-free reaction. In some cases, said contacting comprises contacting said substrate and said donor with said recombinant polypeptide in a reaction, wherein said recombinant polypeptide is secreted by a cell into a media before the contacting.

In yet another aspect, the disclosure provides a composition, comprising a prenylation product and any one recombinant polypeptide disclosed herein. In some cases, said prenylation product comprises CBGA, CBG, CBGVA or any combination thereof. In some cases, said prenylation product comprises 5-GOA, 5-GO. In some cases, said prenylation product comprises 5-GDVA.

In one aspect, the disclosure provides a method of screening for an ORF2 mutant, comprising: providing two or more ORF2 mutants; contacting each of said two or more ORF2 mutants with a substrate and a donor, thereby producing at least two prenylation products under the same condition; measuring a ratio of an amount of one of said at least two prenylation products to a combined amount of said at least two prenylation products for each of said two or more ORF2 mutants; and identifying said ORF2 mutant with the highest ratio among said two or more ORF2 mutants. In some cases, each of said two or more ORF2 mutants comprises an amino acid sequence with at least 95%, 96%, 97%, 98%, or 99% identity to SEQ ID NO: 1. In some cases, said two or more ORF2 mutants comprises different amino acid sequences. In some cases, each of said amino acid sequences comprises at least one amino acid substitution to SEQ ID NO: 1. In some cases, each of said at least one amino acid substitution is located at a different amino acid position. In some cases, said at least one amino acid substitution is located on a position chosen from the group consisting of amino acid positions 1-46, 48-63, 65-109, 111-120, 122, 124, 125, 127-160, 162-174, 176, 178-213, 215, 217-287, 289-293, and 296-307. In some cases, said at least one amino acid substitution is located on a position chosen from the group consisting of amino acid positions 17, 25, 38, 49, 53, 106, 108, 112, 118, 119, 121, 123, 161, 162, 166, 173, 174, 177, 205, 209, 213, 214, 216, 219, 227, 228, 230, 232, 271, 274, 283, 286, 288, 294, 295, and 298.

In some cases, said substrate comprises olivetolic acid (OA), divarinolic acid (DVA), olivetol (O), resveratrol, piceattanol and related stilbenes, naringenin, apigenin and related flavanones and flavones, respectively, Isoliquiritigenin, 2′-O-methylisoliquiritigenin and related chalcones, catechins and epi-catechins of all possible stereoisomers, biphenyl compounds such as 3,5-dihydroxy-biphenyl, benzophenones such as phlorobenzophenone, isoflavones such as biochanin A, genistein, daidzein, 2,4-dihydroxybenzoic acid, 1,3-benzenediol, 2,4-dihydroxy-6-methylbenzoic acid; 1,3-Dihydroxy-5-methylbenzene; 2,4-Dihydroxy-6-aethyl-benzoesaeure; 5-ethylbenzene-1,3-diol 2,4-dihydroxy-6-propylbenzoic acid; 5-propylbenzene-1,3-diol; 2-butyl-4,6-dihydroxybenzoic acid; 5-butylbenzene-1,3-diol; 2,4-dihydroxy-6-pentyl-benzoic acid; 5-pentylbenzene-1,3-diol; 5-hexylbenzene-1,3-diol; 2-heptyl-4,6-dihydroxy-benzoic acid; 5-heptylbenzene-1,3-diol; 5-Dodecylbenzene-1,3-diol; 5-nonadecylbenzene-1,3-diol; 1,3-Benzenediol; 3,4′,5-Trihydroxystilbene; 4'S-Tetrahydroxystilbene; 1,2-Diphenylethylene; 2-Phenylbenzopyran-4-one; 2-Phenylchroman-4-one; 1,3-benzenediol; 5,7,4′-Trihydroxyflavone; (E)-1-(2,4-dihydroxyphenyl)-3-(4-hydroxyphenyl)prop-2-en-1-one; 4,4′-dihydroxy-2′-methoxychalcone; 1,3-Diphenylpropenone; (2R,3 S)-2-(3,4-Dihydroxyphenyl)chroman-3,5,7-triol; (2R,3R)-2-(3,4-Dihydroxyphenyl)-3,5,7-chromanetriol; Phenylbenzene; 5-Phenylresorcinol; diphenylmethanone; 3-phenyl-4H-chromen-4-one; 5,7-Dihydroxy-3-(4-methoxyphenyl)-4H-chromen-4-one; 4′,5,7-Trihydroxyisoflavone; 4′,7-Dihydroxyisoflavone; 4-Hydroxy-6-methyl-2H-pyran-2-one; 1,6-DHN; or any combination thereof.

In some cases, said substrate comprises olivetolic acid (OA), olivetol (O), or divarinic acid (DVA). In some cases, said donor comprises dimethylallyl pyrophosphate (DMAPP), geranyl pyrophosphate (GPP), or farnesyl pyrophosphate (FPP). In some cases, said substrate comprises olivetolic acid (OA) and said donor comprises geranyl pyrophosphate (GPP), and wherein said at least two prenylation products comprises CBGA and 5-GOA. In some cases, said substrate comprises olivetol (O) and said donor comprises geranyl pyrophosphate (GPP), and wherein said at least two prenylation products comprises CBG and 5-GO. In some cases, said substrate comprises divarinic acid (DVA) and said donor comprises geranyl pyrophosphate (GPP), and said at least two prenylation products comprises CBGVA and 5-GDVA.

In one aspect, the disclosure provides methods of making a prenyltransferase mutant, comprising: aligning a crystal structure of a prenyltransferase with a crystal structure of wild-type ORF2 enzyme; identifying an amino acid position on said prenyltransferase corresponding to any one of amino acid positions 17, 25, 38, 49, 53, 106, 108, 112, 118, 119, 162, 166, 173, 174, 205, 209, 213, 219, 227, 228, 230, 232, 271, 274, 283, 286, 288, and 298 on said wild-type ORF2 enzyme, based on alignment of said crystal structures; and substitute said amino acid position on said prenyltransferase with a different amino acid, thereby generating said prenyltransferase mutant.

In one aspect, the disclosure provides a method of making a prenyltransferase mutant, comprising: aligning an amino acid sequence of a prenyltransferase with an amino acid sequence of wild-type ORF2 enzyme; identifying an amino acid position on said prenyltransferase corresponding to any one of amino acid positions 17, 25, 38, 49, 53, 106, 108, 112, 118, 119, 162, 166, 173, 174, 205, 209, 213, 219, 227, 228, 230, 232, 271, 274, 283, 286, 288, and 298 on said wild-type ORF2 enzyme, based on alignment of said amino acid sequences; and substitute said amino acid position on said prenyltransferase with a different amino acid, thereby generating said prenyltransferase mutant.

In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A53T, A53I, A53V, A53L, A53M, A53K, A53S, A53C, and A53Q. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 179, 185, 186, 187, 188, 191, 193, 194, and 195. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A53L, A53K, A53V, A53M, A53Q, A53T, A53S, A53C, and A53I. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 179, 185, 186, 187, 188, 191, 193, 194, and 195. In some cases, said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of A53L, A53T, A53V, A53I, A53M, A53Q, A53K, and A53S. In some cases, said amino acid sequence is selected from the group consisting of SEQ ID NOs: 185, 186, 187, 188, 191, 193, 194, and 195.

BRIEF DESCRIPTION OF THE FIGURES

FIG. 1 shows the total nMol of prenylated products produced by ORF2 triple mutants using OA as substrate and GPP as donor.

FIG. 2 shows % CBGA produced by ORF2 triple mutants using OA as substrate and GPP as donor.

FIG. 3 shows % enzymatic activity of ORF2 triple mutants using OA as substrate and GPP as donor

FIG. 4 shows CBGA production potential of ORF2 triple mutants using OA as substrate and GPP as donor.

FIG. 5 shows a cluster map of ORF2 triple mutants clustered based on CBGA production potential and %5-GOA produced, using OA as substrate and GPP as donor

FIG. 6 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 6A) and % CBGA produced (FIG. 6B) by mutants derived from the breakdown of ORF2 triple mutant clone E09.

FIG. 7 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 7A) and % CBGA produced (FIG. 7B) by mutants derived from the breakdown of ORF2 triple mutant clone H02.

FIG. 8 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 8A) and % CBGA produced (FIG. 8B) by mutants derived from the breakdown of ORF2 triple mutant clone A04.

FIG. 9 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 9A) and % CBGA produced (FIG. 9B) by mutants derived from the breakdown of ORF2 triple mutant clone D04.

FIG. 10 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 10A) and % CBGA produced (FIG. 10B) by mutants derived from the breakdown of ORF2 triple mutant clone A09.

FIG. 11 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 11A) and % CBGA produced (FIG. 11B) by mutants derived from the breakdown of ORF2 triple mutant clone C05.

FIG. 12 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 12A) and % CBGA produced (FIG. 12B) by mutants derived from the breakdown of ORF2 triple mutant clone H011.

FIG. 13 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 13A) and % CBGA produced (FIG. 13B) by mutants derived from the breakdown of ORF2 triple mutant clone F09.

FIG. 14 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 14A) and % CBGA produced (FIG. 14B) by mutants derived from the breakdown of ORF2 triple mutant clone D011.

FIG. 15 shows the analysis of ORF2 enzymatic function including total nMols of prenylated products produced (FIG. 15A) and % CBGA produced (FIG. 15B) by mutants derived from the breakdown of ORF2 triple mutant clone G05.

FIG. 16 shows the analysis of enzymatic activity of site-saturated ORF2 mutants of Q295 using OA as substrate and GPP as donor, including total nMols of prenylated products produced (FIG. 16A); CBGA production potential (FIG. 16B); and 5-GOA production potential (FIG. 16C).

FIG. 17 shows the analysis of enzymatic activity of site-saturated ORF2 mutants of Q161 using OA as substrate and GPP as donor, including total nMols of prenylated products produced (FIG. 17A); CBGA production potential (FIG. 17B); and 5-GOA production potential (FIG. 17C).

FIG. 18 shows the analysis of enzymatic activity of site-saturated ORF2 mutants of 5214 using OA as substrate and GPP as donor, including total nMols of prenylated products produced (FIG. 18A); CBGA production potential (FIG. 18B); and 5-GOA production potential (FIG. 18C).

FIG. 19 shows the total nMol of prenylated products produced (using OA as substrate and GPP as donor) by ORF2 stacking mutants.

FIG. 20 shows the % enzymatic activity (using OA as substrate and GPP as donor) of ORF2 stacking mutants.

FIG. 21 shows the % CBGA produced (using OA as substrate and GPP as donor) by ORF2 stacking mutants.

FIG. 22 shows the CBGA production potential (using OA as substrate and GPP as donor) of ORF2 stacking mutants.

FIG. 23 shows the % ORF2 activity (using OA as substrate and GPP as donor) of A53 site saturation ORF2 mutants.

FIG. 24 shows % ORF2 activity (using OA as substrate and GPP as donor) of Q161 site saturation ORF2 mutants.

FIG. 25 shows the total nMol of prenylated products produced by ORF2 mutants using DVA as substrate and GPP as donor.

FIG. 26 shows % CBGVA and %5-GDVA produced by ORF2 mutants using DVA as substrate and GPP as donor.

FIG. 27 shows the % enzymatic activity of ORF2 mutants using DVA as substrate and GPP as donor.

FIG. 28 shows the CBGVA production potential of ORF2 mutants using DVA as substrate and GPP as donor.

FIG. 29 shows a cluster map of ORF2 mutants clustered based on CBGVA production potential and % GDVA produced, using DVA as substrate and GPP as donor

FIG. 30 shows the total amount of prenylated products (FIG. 30A) and % CBGVA in prenylated products (FIG. 30B) of A09 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 31 shows the total amount of prenylated products (FIG. 31A) and % CBGVA in prenylated products (FIG. 1B) of H02 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 32 shows the total amount of prenylated products (FIG. 32A) and % CBGVA in prenylated products (FIG. 32B) of C05 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 33 shows the total amount of prenylated products (FIG. 33A) and % CBGVA in prenylated products (FIG. 33B) of E09 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 34 shows the total amount of prenylated products (FIG. 34A) and % CBGVA in prenylated products (FIG. 34B) of D04 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 35 shows the total amount of prenylated products (FIG. 35A) and % CBGVA in prenylated products (FIG. 35B) of H11 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 36 shows the total amount of prenylated products (FIG. 36A) and % CBGVA in prenylated products (FIG. 36B) of A04 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 37 shows the total amount of prenylated products (FIG. 37A) and % CBGVA in prenylated products (FIG. 37B) of G05 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 38 shows the total amount of prenylated products (FIG. 38A) and % CBGVA in prenylated products (FIG. 38B) of F09 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 39 shows the total amount of prenylated products (FIG. 39A) and % CBGVA in prenylated products (FIG. 39B) of D11 ORF2 mutant using DVA as substrate and GPP as donor.

FIG. 40 shows the total amount of prenylated products (FIG. 40A); CBGVA production potential (FIG. 40B); and %5-GDVA production potential (FIG. 40C) of site saturated mutants of Q295.

FIG. 41 shows the total amount of prenylated products (FIG. 41A); CBGVA production potential (FIG. 41B); and %5-GDVA production potential (FIG. 41C) of site saturated mutants of Q161.

FIG. 42 shows the total amount of prenylated products (FIG. 42A); CBGVA production potential (FIG. 42B); and %5-GDVA production potential (FIG. 42C) of site saturated mutants of S214.

FIG. 43 shows total nMol of prenylated products produced (using DVA as substrate and GPP as donor) by ORF2 stacking mutants.

FIG. 44 shows the % enzymatic activity using DVA substrate and GPP as donor of ORF2 stacking mutants.

FIG. 45 shows the % CBGVA produced (using DVA as substrate and GPP as donor) by ORF2 stacking mutants

FIG. 46 shows that CBGVA production potential of the new ORF2 mutants generated by stacking the selected mutations.

FIG. 47 shows % enzymatic activity (using DVA as substrate and GPP as donor) of ORF2 mutants derived from breakdown of A09 mutant clone.

FIG. 48 shows % enzymatic activity (using DVA as substrate and GPP as donor) of ORF2 mutants derived from breakdown of E09 mutant clone.

FIG. 49 shows % enzymatic activity (using DVA as substrate and GPP as donor) of Q295 site-saturated ORF2 mutants.

FIG. 50 shows % enzymatic activity (using DVA as substrate and GPP as donor) of A53 site-saturated ORF2 mutants.

FIG. 51 shows % enzymatic activity (using DVA as substrate and GPP as donor) of Q161 site-saturated ORF2 mutants.

FIG. 52 shows % enzymatic activity (using DVA as substrate and GPP as donor) of stacking ORF2 mutants.

FIG. 53 shows the total nMol of prenylated products produced by ORF2 triple mutants using O as substrate and GPP as donor.

FIG. 54 shows % CBG and % GO produced by ORF2 triple mutants using O as substrate and GPP as donor.

FIG. 55 shows % enzymatic activity (using O as substrate and GPP as donor) of ORF2 triple mutants.

FIG. 56 shows the CBG production potential (using O as substrate and GPP as donor) of ORF2 triple mutants.

FIG. 57 shows a cluster graph of CBG production potential of ORF2 triple mutants vs. % GO produced by ORF2 triple mutants (using O as substrate and GPP as donor).

FIG. 58 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 58A) and % CBG produced (FIG. 58B)—of ORF2 mutants derived from breakdown of E09 triple mutant.

FIG. 59 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 59A) and % CBG produced (FIG. 59B)—of ORF2 mutants derived from breakdown of A09 triple mutant.

FIG. 60 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 60A) and % CBG produced (FIG. 60B)—of ORF2 mutants derived from breakdown of A04 triple mutant.

FIG. 61 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 61A) and % CBG produced (FIG. 61B)—of ORF2 mutants derived from breakdown of H011 triple mutant.

FIG. 62 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 62A) and % CBG produced (FIG. 62B)—of ORF2 mutants derived from breakdown of H02 triple mutant.

FIG. 63 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 63A) and % CBG produced (FIG. 63B)—of ORF2 mutants derived from breakdown of D04 triple mutant.

FIG. 64 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 64A) and % CBG produced (FIG. 64B)—of ORF2 mutants derived from breakdown of C05 triple mutant.

FIG. 65 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 65A) and % CBG produced (FIG. 65B)—of ORF2 mutants derived from breakdown of F09 triple mutant.

FIG. 66 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 66A) and % CBG produced (FIG. 66B)—of ORF2 mutants derived from breakdown of D11 triple mutant.

FIG. 67 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 67A) and % CBG produced (FIG. 67B)—of ORF2 mutants derived from breakdown of G05 triple mutant.

FIG. 68 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 68A) and CBG production potential (FIG. 68B) —of ORF2 mutants carrying site saturation Q295 mutations.

FIG. 69 shows 5-GO production potential (using O as substrate and GPP as donor) of ORF2 mutants carrying site saturation Q295 mutations.

FIG. 70 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 70A) and CBG production potential (FIG. 70B) —of ORF2 mutants carrying site saturation Q161 mutations.

FIG. 71 shows 5-GO production potential (using O as substrate and GPP as donor) of ORF2 mutants carrying site saturation Q161 mutations.

FIG. 72 shows the analysis of ORF2 enzymatic function (using O as substrate and GPP as donor)—including total nMol of prenylated products (FIG. 72A) and CBG production potential (FIG. 72B) —of ORF2 mutants carrying site saturation 5214 mutations.

FIG. 73 shows 5-GO production potential (using O as substrate and GPP as donor) of ORF2 mutants carrying site saturation 5214 mutations.

FIG. 74 shows the total nMol of prenylated products produced (using O as substrate and GPP as donor) by ORF2 stacking mutants.

FIG. 75 shows the % enzymatic activity (using O as substrate and GPP as donor) of ORF2 stacking mutants.

FIG. 76 shows the % CBG produced (using O as substrate and GPP as donor) by ORF2 stacking mutants.

FIG. 77 shows the CBG production potential (using O as substrate and GPP as donor) of ORF2 stacking mutants.

FIG. 78 shows % activity (using O as substrate and GPP as donor) of ORF2 mutants resulting from breakdown of tripe mutant clone E09.

FIG. 79 shows % activity (using O as substrate and GPP as donor) of ORF2 mutants resulting from breakdown of tripe mutant clone A09.

FIG. 80 shows % ORF2 activity (using O as substrate and GPP as donor) of Q161 site saturation ORF2 mutants.

FIG. 81: % ORF2 activity (using O as substrate and GPP as donor) of A53 site saturation ORF2 mutants.

FIG. 82 shows ORF-2 activity (using OA as substrate and GPP as donor) of A53-S214R ORF2 double mutants.

FIG. 83 shows ORF-2 activity (using OA as substrate and GPP as donor) of Q161S-Q295L ORF2 double mutants.

FIG. 84: ORF-2 activity (using OA as substrate and GPP as donor) of Q161S-Q295F ORF2 double mutants.

FIG. 85: ORF-2 activity (using OA as substrate and GPP as donor) of S177W-Q295A ORF2 double mutants.

FIG. 86: ORF-2 activity (using DVA as substrate and GPP as donor) of A53T-S214R ORF2 double mutants.

FIG. 87: ORF-2 activity (using DVA as substrate and GPP as donor) of Q161S-Q295L ORF2 double mutants.

FIG. 88: ORF-2 activity (using DVA as substrate and GPP as donor) of S177W-Q295A ORF2 double mutants.

FIG. 89: ORF-2 activity (using DVA as substrate and GPP as donor) of Q161S-Q295F ORF2 double mutants.

FIG. 90: ORF-2 activity (using DVA as substrate and GPP as donor) of A53T-Q295F ORF2 double mutants.

FIG. 91: ORF-2 activity (using DVA as substrate and GPP as donor) of Q161S-S177W ORF2 double mutants.

FIG. 92: ORF-2 activity (using O as substrate and GPP as donor) of Q161S-Q295L ORF2 double mutants.

FIG. 93: ORF-2 activity (using O as substrate and GPP as donor) of A53T-Q161S ORF2 double mutants.

FIG. 94: ORF-2 activity (using O as substrate and GPP as donor) of Q161S-Q295F ORF2 double mutants.

FIG. 95: ORF-2 activity (using O as substrate and GPP as donor) of A53T-Q295F ORF2 double mutants.

FIG. 96: ORF-2 activity (using O as substrate and GPP as donor) of A53T-V294A ORF2 double mutants.

FIG. 97. Analysis of enzymatic activity of site-saturated ORF2 mutants of Y288 using OA as substrate and GPP as donor—including total prenylated products (FIG. 97A); CBGA production potential (FIG. 97B); and 5GOA production potential (FIG. 97C).

FIG. 98. Analysis of enzymatic activity of site-saturated ORF2 mutants of Y288 using DVA as substrate and GPP as donor—including total prenylated products (FIG. 98A); CBGVA production potential (FIG. 98B); and 5-GDVA production potential (FIG. 98C).

FIG. 99. Analysis of enzymatic activity of site-saturated ORF2 mutants of Y288 using O as substrate and GPP as donor—including total prenylated products (FIG. 99A); CBG production potential (FIG. 99B); and 5-GO production potential (FIG. 99C).

FIG. 100: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone G12—including total prenylated products (FIG. 100A); and % CBGA produced (FIG. 100B).

FIG. 101: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone C06—including total prenylated products (FIG. 101A); and % CBGA produced (FIG. 101B).

FIG. 102: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone F08—including total prenylated products (FIG. 102A); and % CBGA produced (FIG. 102B).

FIG. 103: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone G12—including total prenylated products (FIG. 103A); and % CBGVA produced (FIG. 103B).

FIG. 104: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone C06—including total prenylated products (FIG. 104A); and % CBGVA produced (FIG. 104B).

FIG. 105: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone F08—including total prenylated products (FIG. 105A); and % CBGVA produced (FIG. 105B).

FIG. 106: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone G12—including total prenylated products (FIG. 106A); and % CBG produced (FIG. 106B).

FIG. 107: Analysis of ORF-2 enzymatic function of single mutants derived from the breakdown of ORF-2 triple mutant clone C06—including total prenylated products (FIG. 107A); and % CBG produced (FIG. 107B).

FIG. 108: Examples of benzoic acids and benzenediols applicable for prenylation by Orf2 mutants

FIG. 109: Structures of benzoic acids and benzenediols applicable for prenylation by Orf2 mutants

FIG. 110: Examples of other substrate molecules applicable for prenylation with Orf2 variants

FIG. 111: Total nMol of prenylated products produced by ORF2 triple mutants using OA as substrate and GPP as donor at pH 5.3

FIG. 112: % CBGA produced by ORF2 triple mutants using OA as substrate and GPP as donor pH 5.3

FIG. 113: % enzymatic activity of ORF2 triple mutants using OA as substrate and GPP as donor pH 5.3

FIG. 114: CBGA production potential of ORF2 triple mutants using OA as substrate and GPP as donor pH 5.3

FIG. 115: Cluster map of ORF2 triple mutants clustered based on CBGA production potential and %5-GOA produced, using OA as substrate and GPP as donor pH 5.3

FIG. 116: Analysis of ORF2 enzymatic activity (using OA as substrate and GPP as donor) for ORF2 mutants having either Q161H, S214H, or Q295H mutation.

DETAILED DESCRIPTION Definitions

As used herein, and in the appended claims, the singular forms “a”, “an”, and “the” include plural referents unless the context clearly dictates otherwise. Thus, for example, reference to “a protein” can refer to one protein or to mixtures of such protein, and reference to “the method” includes reference to equivalent steps and/or processes known to those skilled in the art, and so forth.

As used herein, the term “about” or “approximately” when preceding a numerical value indicates the value plus or minus a range of 10%. For example, “about 100” encompasses 90 and 110.

The term “wild type”, abbreviated as “WT”, is a term of the art understood by skilled persons and means the typical form of an organism, strain, gene, protein, or characteristic as it occurs in nature as distinguished from mutant or variant forms. For example, a WT protein is the typical form of that protein as it occurs in nature.

The term “mutant protein” is a term of the art understood by skilled persons and refers to a protein that is distinguished from the WT form of the protein on the basis of the presence of amino acid modifications, such as, for example, amino acid substitutions, insertions and/or deletions.

Amino acid modifications may be amino acid substitutions, amino acid deletions and/or amino acid insertions. Amino acid substitutions may be conservative amino acid substitutions or non-conservative amino acid substitutions. A conservative replacement (also called a conservative mutation, a conservative substitution or a conservative variation) is an amino acid replacement in a protein that changes a given amino acid to a different amino acid with similar biochemical properties (e.g. charge, hydrophobicity and size). As used herein, “conservative variations” refer to the replacement of an amino acid residue by another, biologically similar residue. Examples of conservative variations include the substitution of one hydrophobic residue such as isoleucine, valine, leucine or methionine for another; or the substitution of one polar residue for another, such as the substitution of arginine for lysine, glutamic for aspartic acids, or glutamine for asparagine, and the like. Other illustrative examples of conservative substitutions include the changes of: alanine to serine; arginine to lysine; asparagine to glutamine or histidine; aspartate to glutamate; cysteine to serine; glutamine to asparagine; glutamate to aspartate; glycine to praline; histidine to asparagine or glutamine; isoleucine to leucine or valine; leucine to valine or isoleucine; lysine to arginine, glutamine, or glutamate; methionine to leucine or isoleucine; phenylalanine to tyrosine, leucine or methionine; serine to threonine; threonine to serine; tryptophan to tyrosine; tyrosine to tryptophan or phenylalanine; valine to isoleucine or leucine, and the like.

Amino acid substitution, interchangeably referred to as amino acid replacement, at a specific position on the protein sequence is denoted herein in the following manner: “one letter code of the WT amino acid residue-amino acid position-one letter code of the amino acid residue that replaces this WT residue”. For example, an ORF2 polypeptide which is a Q295F mutant refers to an ORF2 polypeptide in which the wild type residue at the 295^(th) amino acid position (Q or glutamine) is replaced with F or phenylalanine. Some mutants have more than one amino acid substitutions, for example, mutant L174V_S177E refers to an ORF2 polypeptide in which the wild type residue at the 174th amino acid position (L or leucine) is replaced with V or valine; and the wild type residue at the 177th amino acid position (S or serine) is replaced with E or glutamic acid.

The modified peptides can be chemically synthesized, or the isolated gene can be site-directed mutagenized, or a synthetic gene can be synthesized and expressed in bacteria, yeast, baculovirus, tissue culture, and the like.

As used herein, “total prenylated products” produced refers to the sum of nMols of the various prenylated products produced by an enzyme in a set period of time. For instance, when OA is used as a substrate and GPP is used as a donor, then the “total prenylated products” refers to a sum of the nMol of CBGA and the nMol of 5-GOA produced by the prenyltranferase enzyme ORF2 in a set period of time.

As used herein, “% prenylated product 1” within total prenylated products is calculated using the equation: nMol of prenylated product 1/[nMol of total prenylated products]. For example, “% CBGA” is calculated using the equation: nMol of CBGA/[nMol of CBGA+5-GOA]. Also, as an example, “%5-GOA” within prenylated products is calculated using the equation: nMol of 5-GOA/[nMol of CBGA+5-GOA].

As used herein, % enzymatic activity of an ORF2 mutant is calculated using the equation: total prenylated products produced by a mutant/total prenylated products produced by wild-type ORF2. For example, wild-type ORF2 has 100% enzyme activity.

As used herein, the production or production potential of a prenylated product 1 is calculated using the formula: % product 1 among total prenylated products * % enzymatic activity. For example, “CBGA production potential” (used interchangeably with “CBGA production”) is calculated using the equation: % CBGA among total prenylated products * % enzymatic activity. Also, as an example, “5-GOA production potential” (used interchangeably with “5-GOA production”) is calculated using the equation: %5-GOA among total prenylated products * enzymatic activity.

A “vector” is used to transfer genetic material into a target cell. Vectors include, but are not limited to, nucleic acid molecules that are single-stranded, double-stranded, or partially double-stranded; nucleic acid molecules that comprise one or more free ends, no free ends (e.g. circular); nucleic acid molecules that comprise DNA, RNA, or both; and other varieties of polynucleotides known in the art. One type of vector is a “plasmid,” which refers to a circular double stranded DNA loop into which additional DNA segments can be inserted, such as by standard molecular cloning techniques. Another type of vector is a viral vector, wherein virally-derived DNA or RNA sequences are present in the vector for packaging into a virus (e.g., retroviruses, adenoviruses, lentiviruses, and adeno-associated viruses). In embodiments, a viral vector may be replication incompetent. Viral vectors also include polynucleotides carried by a virus for transfection into a host cell. Certain vectors are capable of autonomous replication in a host cell into which they are introduced (e.g. bacterial vectors having a bacterial origin of replication and episomal mammalian vectors). Other vectors (e.g., non-episomal mammalian vectors) are integrated into the genome of a host cell upon introduction into the host cell, and thereby are replicated along with the host genome. Moreover, certain vectors are capable of directing the expression of genes to which they are operatively-linked. Such vectors are referred to herein as “expression vectors.” Common expression vectors of utility in recombinant DNA techniques are often in the form of plasmids.

As used herein “sequence identity” refers to the extent to which two optimally aligned polynucleotides or polypeptide sequences are invariant throughout a window of alignment of components, e.g. nucleotides or amino acids. An “identity fraction” for aligned segments of a test sequence and a reference sequence is the number of identical components which are shared by the two aligned sequences divided by the total number of components in the reference sequence segment, i.e. the entire reference sequence or a smaller defined part of the reference sequence. “Percent identity” is the identity fraction times 100. Comparison of sequences to determine percent identity can be accomplished by a number of well-known methods, including for example by using mathematical algorithms, such as, for example, those in the BLAST suite of sequence analysis programs.

Cannabinoid Synthesis

The biosynthesis of cannabinoids often starts with the short-chain fatty acid, hexanoic acid. Initially, the fatty acid is converted to its coenzyme A (CoA) form by the activity of an acyl activating enzyme. Subsequently, olivetolic acid (OA) is biosynthesized by the action of a type III polyketide synthase (PKS), and, in some cases, a polyketide cyclase (olivetolic acid cyclase [OAC]).

A geranyl diphosphate:olivetolate geranyltransferase, named cannabigerolic acid synthase (CBGAS), is responsible for the C-alkylation by geranyl diphosphate (GPP) to CBGA. Subsequently, the monoterpene moiety of CBGA is often stereoselectively cyclized by three different enzymes cannabichromenic acid synthase (CBCAS), cannabidiolic acid synthase (CBDAS) and tetrahydrocannabinolic acid synthase (THCAS) to synthesize cannabichromenic acid (CBCA), cannabidiolic acid (CBDA) and Δ⁹-THCA, respectively.

The central precursor for cannabinoid biosynthesis, CBGA, is synthesized by the aromatic prenyltransferase CBGAS by the condensation of GPP and OA. In considering the biosynthesis of cannabinoids in a heterologous system, one major challenge is that CBGAS (e.g. CsPT1 and CsPT4) is an integral membrane protein, making high titer of functional expressed protein in E. coli and other heterologous systems unlikely. Besides the integral membrane prenyltransferases found in plants, soluble prenyltransferases are found in fungi and bacteria. For instance, Streptomyces sp. strain CL190 produces a soluble prenyltransferase NphB or ORF2, which is specific for GPP as a prenyl donor and exhibits broad substrate specificity towards aromatic substrates. When expressed in E. coli, ORF2 of SEQ ID NO:2 is as a 33 kDa soluble, monomeric protein having 307 residues. Further details about ORF2 and other aromatic prenyltransferases may be found in U.S. Pat. Nos. 7,361,483; 7,544,498; and 8,124,390, each of which is incorporated herein by reference in its entirety for all purposes.

ORF2 is a potential alternative to replace the native CBGAS in a biotechnological production of cannabinoids and other prenylated aromatic compounds. However, the wild type ORF2 enzyme produces a large amount of 5-geranyl olivetolate (5-GOA) and only a minor amount of CBGA, the latter of which is the desired product for cannabinoid biosynthesis.

This disclosure provides ORF2 mutants, engineered by the inventors to produce higher ratios of CBGA to 5-GOA (and other compounds), as compared to WT ORF2; as well as ORF2 mutants which have been engineered to catalyze reactions using a desired substrate and to produce higher amounts of a desired product.

ORF2 Mutants

The disclosure provides recombinant polypeptides comprising an amino acid sequence with at least about 70% identity to the amino acid sequence of WT ORF2 (set forth in SEQ ID NO: 1). In some aspects, the polypeptides disclosed herein may have a sequence identity of about 70%, about 75%, about 80%, about 85%, about 90%, about 95%, about 96%, about 97%, about 98%, about 99%, or about 99.5% identity to the amino acid sequence of WT ORF2 (set forth in SEQ ID NO: 1). In some aspects, the mutant ORF2 polypeptides disclosed herein may comprise a modification at one or more amino acids, as compared to the WT ORF2 sequence. In some aspects, the mutant ORF2 polypeptides disclosed herein may comprise a modification at 1 amino acid, 2 amino acids, 3 amino acids, 4 amino acids, 5 amino acids, 6 amino acids, 7 amino acids, 8 amino acids, 9 amino acids, 10 amino acids, 11 amino acids, 12 amino acids, 13 amino acids, 14 amino acids, 15 amino acids, 16 amino acids, 17 amino acids, 18 amino acids, 19 amino acids, 20 amino acids, 21 amino acids, 22 amino acids, 23 amino acids, 24 amino acids, 25 amino acids, 26 amino acids, 27 amino acids, 28 amino acids, 29 amino acids, 30 amino acids, 31 amino acids, 32 amino acids, 33 amino acids, 34 amino acids, 35 amino acids, or 36 amino acids, as compared to the WT ORF2 sequence.

In some aspects, mutant ORF2 polypeptides disclosed herein comprise a modification in one or more amino acid residues selected from the group consisting of the following amino acid residues, A17, C25, Q38, V49, A53, M106, A108, E112, K118, K119, Y121, F123, Q161, M162, D166, N173, L174, S177, G205, C209, F213, S214, Y216, L219, D227, R228, C230, A232, V271, L274, Y283, G286, Y288, V294, Q295, and L298 of the WT ORF2 polypeptide. For instance, the mutant ORF2 polypeptides disclosed herein may comprise an amino acid modification at 1 amino acid, 2 amino acids, 3 amino acids, 4 amino acids, 5 amino acids, 6 amino acids, 7 amino acids, 8 amino acids, 9 amino acids, 10 amino acids, 11 amino acids, 12 amino acids, 13 amino acids, 14 amino acids, 15 amino acids, 16 amino acids, 17 amino acids, 18 amino acids, 19 amino acids, 20 amino acids, 21 amino acids, 22 amino acids, 23 amino acids, 24 amino acids, 25 amino acids, 26 amino acids, 27 amino acids, 28 amino acids, 29 amino acids, 30 amino acids, 31 amino acids, 32 amino acids, 33 amino acids, 34 amino acids, 35 amino acids, or 36 amino acids selected from the group consisting of the following amino acid residues, A17, C25, Q38, V49, A53, M106, A108, E112, K118, K119, Y121, F123, Q161, M162, D166, N173, L174, S177, G205, C209, F213, S214, Y216, L219, D227, R228, C230, A232, V271, L274, Y283, G286, Y288, V294, Q295, and L298 of the WT ORF2 polypeptide.

In some aspects, the mutant ORF2 polypeptides disclosed herein may comprise an amino acid substitution of at least one amino acid residue selected from the group consisting of A17, C25, Q38, V49, A53, M106, A108, E112, K118, K119, Y121, F123, Q161, M162, D166, N173, L174, S177, G205, C209, F213, S214, Y216, L219, D227, R228, C230, A232, V271, L274, Y283, G286, Y288, V294, Q295, and L298. For instance, the mutant ORF2 polypeptides disclosed herein may comprise an amino acid substitution of 1 amino acid, 2 amino acids, 3 amino acids, 4 amino acids, 5 amino acids, 6 amino acids, 7 amino acids, 8 amino acids, 9 amino acids, 10 amino acids, 11 amino acids, 12 amino acids, 13 amino acids, 14 amino acids, 15 amino acids, 16 amino acids, 17 amino acids, 18 amino acids, 19 amino acids, 20 amino acids, 21 amino acids, 22 amino acids, 23 amino acids, 24 amino acids, 25 amino acids, 26 amino acids, 27 amino acids, 28 amino acids, 29 amino acids, 30 amino acids, 31 amino acids, 32 amino acids, 33 amino acids, 34 amino acids, 35 amino acids, or 36 amino acids selected from the group consisting of A17, C25, Q38, V49, A53, M106, A108, E112, K118, K119, Y121, F123, Q161, M162, D166, N173, L174, S177, G205, C209, F213, S214, Y216, L219, D227, R228, C230, A232, V271, L274, Y283, G286, Y288, V294, Q295, and L298.

In some aspects, the mutant ORF2 polypeptides disclosed herein comprise an amino acid sequence comprising at least one amino acid substitution, as compared to the amino acid sequence of WT ORF2, wherein the at least one amino acid substitution does not comprise an alanine substitution on an amino acid residue selected from the group consisting of 47, 64, 110, 121, 123, 126, 161, 175, 177, 214, 216, 288, 294 and 295.

In some aspects, the mutant ORF2 polypeptides disclosed herein comprise an amino acid sequence comprising at least one amino acid substitution, as compared to the amino acid sequence of WT ORF2, wherein at least one amino acid substitution is at a position selected from the group consisting of 1-46, 48-63, 65-109, 111-120, 122, 124, 125, 127-160, 162-174, 176, 178-213, 215, 217-287, 289-293, 296-307, on WT-ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein comprise an amino acid sequence with at least about 70% identity (for instance, about 75%, about 80%, about 85%, about 90%, about 95%, about 96%, about 97%, about 98%, about 99%, or about 99.5% identity, inclusive of all values and subranges therebetween) to the amino acid sequence of SEQ ID Nos 2-300. In some aspects, the mutant ORF2 polypeptides disclosed herein comprise the amino acid sequence of SEQ ID Nos 2-300. In some aspects, the mutant ORF2 polypeptides disclosed herein consist of the amino acid sequence of SEQ ID Nos 2-300.

In some aspects, the mutant ORF2 polypeptides disclosed herein catalyze a reaction using GPP as a donor of the prenyl group. In some aspects, the mutant ORF2 polypeptides disclosed herein catalyze a reaction using any known substrate of ORF2, or a homologue thereof. In some aspects, the substrate is selected from the group consisting of olivetolic acid (OA), divarinolic acid (DVA) and olivetol (O). In some aspects, the substrate is any natural or synthetic phenolic acids with a 1,3-dihydroxyl motif, alternatively a resorcinol ring including but not limited to resveratrol, piceattanol and related stilbenes, naringenin, apigenin and related flavanones and flavones, respectively, Isoliquiritigenin, 2′-O-methylisoliquiritigenin and related chalcones, catechins and epi-catechins of all possible stereoisomers, biphenyl compounds such as 3,5-dihydroxy-biphenyl, benzophenones such as phlorobenzophenone, isoflavones such as biochanin A, genistein, and daidzein. For instance, the substrate may be any substrate listed in Tables A and B; and FIGS. 117-119.

TABLE A Examples of ORF2 substrates which are benzoic acids and benzenediols Tail Chain IUPAC Chemical Name Common Name Length CAS# 2,4-dihydroxybenzoic acid β-Resorcylic acid 0-carbon 89-86-1 1,3-benzenediol resorcinol 0-carbon 108-46-3 2,4-dihydroxy-6-methylbenzoic o-orsellinic Acid 1-carbon 480-64-8 acid 1,3-Dihydroxy-5-methylbenzene Orcinol 1-carbon 504-15-4 2,4-Dihydroxy-6-aethyl- 2-carbon 4299-73-4 benzoesaeure 5-ethylbenzene-1,3-diol 2-carbon 4299-72-3 2,4-dihydroxy-6-propylbenzoic Divarinic Acid 3-carbon 4707-50-0 acid 5-propylbenzene-1,3-diol Divarin 3-carbon 500-49-2 2-butyl-4,6-dihydroxybenzoic 4-carbon 173324-41-9 acid 5-butylbenzene-1,3-diol 4-carbon 46113-76-2 2,4-dihydroxy-6-pentyl-benzoic Olivetolic Acid 5-carbon 491-72-5 acid; 5-pentylbenzene-1,3-diol Olivetol 5-carbon 500-66-3 5-hexylbenzene-1,3-diol 6-carbon 5465-20-3 2-hepty1-4,6-dihydroxy-benzoic sphaerophorolcarboxylic 7-carbon 6121-76-2 acid acid 5-heptylbenzene-1,3-diol Sphaerophorol 7-carbon 500-67-4 5-Dodecylbenzene-1,3-diol 12-carbon 72707-60-9 5-nonadecylbenzene-1,3-diol 19-carbon 35176-46-6

TABLE B Examples of other aromatic compounds which are ORF2 substrates IUPAC Chemical Name Common Name CAS# 1,3-Benzenediol resorcinol 108-46-3 3,4′,5-Trihydroxystilbene resveratrol 89-86-1 4′5-Tetrahydroxystilbene Piceatannol 4339-71-3 1,2-Diphenylethylene stilbene 103-30-0 2-Phenylbenzopyran-4-one flavone 525-82-6 2-Phenylchroman-4-one flavanone 487-26-3 1,3-benzenediol naringenin 108-46-3 5,7,4′-Trihydroxyflavone apigenin 8002-66-2 (E)-1-(2,4- Isoliquiritigenin 961-29-5 dihydroxyphenyl)-3-(4- hydroxyphenyl)prop-2-en-1- one 4,4′-dihydroxy-2′- 2′-O-Methylisoliquiritigenin 112408-67-0 methoxychalcone 1,3-Diphenylpropenone chalcone 94-41-7 (2R,3S)-2-(3,4- catechin 7295-85-4 Dihydroxyphenyl)chroman- 3,5,7-triol (2R,3R)-2-(3,4- epi-catechin 7295-85-4 Dihydroxyphenyl)-3,5,7- chromanetriol Phenylbenzene biphenyl 92-52-4 5-Phenylresorcinol 3,5-Dihydroxybiphenyl 7028-41-3 diphenylmethanone benzophenone 119-61-9 3-phenyl-4H-chromen-4-one isoflavone 574-12-9 5,7-Dihydroxy-3-(4- biochanin A 491-80-5 methoxyphenyl)-4H- chromen-4-one 4′,5,7-Trihydroxyisoflavone Genistein 690224-00-1 4′,7-Dihydroxyisoflavone Diadzein 486-66-8 4-Hydroxy-6-methyl-2H- Triacetic acid lactone 675-10-5 pyran-2-one 1,6-DHN 575-44-0

In some aspects, the products of ORF2 prenylation may further serve as substrates for ORF2. Therefore, the substrate may also be any product of an ORF2 prenylation reaction.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher amount of total nMol of prenylated products than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce an amount of total nMol of prenylated products that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the amount of total nMol of prenylated products produced by WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have an enzymatic activity higher than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein have an activity that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the enzymatic activity of WT ORF2.

ORF2 Mutants Catalyzing a Reaction Using OA as Substrate

In some aspects the mutant ORF2 polypeptides disclosed herein catalyze the reaction converting OA and GPP to CBGA and 5-GOA.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher amount of total nMol of prenylated products than WT ORF2, wherein the mutant ORF2 polypeptides use OA as substrate and GPP as donor; and the prenylated products are CBGA and 5-GOA. In some aspects, the mutant ORF2 polypeptides disclosed herein produce an amount of total nMol of prenylated products that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the amount of total nMol of prenylated products produced by WT ORF2, wherein the prenylated products are CBGA and 5-GOA.

The ratio of CBGA to 5-GOA produced by WT ORF2 is about 20:80. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBGA to 5-GOA that is higher than the ratio of CBGA to 5-GOA produced by WT ORF2 under the same conditions. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBGA to 5-GOA that is lower than the ratio of CBGA to 5-GOA produced by WT ORF2 under the same conditions. In some embodiments, the ratio of CBGA to 5-GOA produced by the mutant ORF2 proteins of this disclosure may range from about 1:99 to up to 20:80; or more than about 20:80 to 99:1, for example about 5:95, about 10:90, about 15:85, about 25:75, about 30:70, about 35:65, about 40:60, about 45:55, about 50:50, about 55:45, about 60:40, about 65:35, about 70:30, about 75:25, about 80:20, about 85:15, about 90:10, about 95:5, or about 99:1, including all values and subranges that lie therebetween.

In some aspects, the mutant ORF2 polypeptides disclosed herein have an enzymatic activity higher than WT ORF2, wherein the mutant ORF2 polypeptides use OA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have an activity that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the enzymatic activity of WT ORF2, wherein the mutant ORF2 polypeptides use OA as substrate and GPP as donor.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of CBGA than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of CBGA than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of CBGA than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, or about 100%), inclusive all the values and subranges that lie therebetween, lower % of CBGA than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of 5-GOA than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of 5-GOA than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GOA than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%), inclusive all the values and subranges that lie therebetween, lower % of 5-GOA than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBGA production potential that is higher than that of WT ORF2. As used herein, CBGA production potential of an enzyme is calculated by multiplying the % CBGA in total prenylated products by the % activity calculated when the mutant ORF-2 uses OA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBGA production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GOA than WT ORF2; and have a CBGA production potential that is higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a 5-GOA production potential that is higher than that of WT ORF2. As used herein, 5-GOA production potential of an enzyme is calculated by multiplying the %5-GOA in total prenylated products by the % activity calculated when the mutant ORF-2 uses OA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein has a 5-GOA production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

ORF2 Mutants Catalyzing a Reaction Using DVA as Substrate

In some aspects, the mutant ORF2 polypeptides disclosed herein catalyze the reaction of converting DVA and GPP to CBGVA and 5-GDVA.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher amount of total nMol of prenylated products than WT ORF2, wherein the mutant ORF2 polypeptides use DVA as substrate and GPP as donor; and the prenylated products are CBGVA and 5-GDVA. In some aspects, the mutant ORF2 polypeptides disclosed herein produce an amount of total nMol of prenylated products that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the amount of total nMol of prenylated products produced by WT ORF2, wherein the prenylated products are CBGVA and 5-GDVA.

The ratio of CBGVA to 5-GDVA produced by WT ORF2 is about 16:84. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBGVA to 5-GDVA that is higher than the ratio of CBGVA to 5-GDVA produced by WT ORF2 under the same conditions. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBGVA to 5-GDVA that is lower than the ratio of CBGVA to 5-GDVA produced by WT ORF2 under the same conditions. In some embodiments, the ratio of CBGVA to 5-GDVA produced by the mutant ORF2 proteins of this disclosure may range from about 1:99 to up to about 16:84; or more than about 16:84 to about 99:1, for example about 5:95, about 10:90, about 15:85, about 20:80, about 25:75, about 30:70, about 35:65, about 40:60, about 45:55, about 50:50, about 55:45, about 60:40, about 65:35, about 70:30, about 75:25, about 80:20, about 85:15, about 90:10, about 95:5, or about 99:1, including all values and subranges that lie therebetween.

In some aspects, the mutant ORF2 polypeptides disclosed herein have an enzymatic activity higher than WT ORF2, wherein the mutant ORF2 polypeptides use DVA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have an activity that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the enzymatic activity of WT ORF2, wherein the mutant ORF2 polypeptides use DVA as substrate and GPP as donor.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of CBGVA than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of CBGVA than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of CBGVA than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, or about 100%), inclusive all the values and subranges that lie therebetween, lower % of CBGVA than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of 5-GDVA than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of 5-GDVA than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GDVA than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%), inclusive all the values and subranges that lie therebetween, lower % of 5-GDVA than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBGVA production potential is higher than that of WT ORF2. As used herein, CBGVA production potential of an enzyme is calculated by multiplying the % CBGVA in total prenylated products by the % activity calculated when the mutant ORF-2 uses DVA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBGVA production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GDVA than WT ORF2; and have a CBGVA production potential that is higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a 5-GDVA production potential that is higher than that of WT ORF2. As used herein, 5-GDVA production potential of an enzyme is calculated by multiplying the %5-GDVA in total prenylated products by the % activity calculated when the mutant ORF-2 uses DVA as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein has a 5-GDVA production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

ORF2 Mutants Catalyzing a Reaction Using O as Substrate

In some aspects, the mutant ORF2 polypeptides disclosed herein catalyze the reaction of converting O and GPP to CBG and 5-GO. See FIG. 118, showing that ORF2 substrates include benzoic acids and benzenediols.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher amount of total nMol of prenylated products than WT ORF2, wherein the mutant ORF2 polypeptides use O as substrate and GPP as donor; and the prenylated products are CBG and 5-GO. In some aspects, the mutant ORF2 polypeptides disclosed herein produce an amount of total nMol of prenylated products that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the amount of total nMol of prenylated products produced by WT ORF2, wherein the prenylated products are CBG and 5-GO.

The ratio of CBG to 5-GO produced by WT ORF2 is about 62:38. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBG to 5-GO that is higher than the ratio of CBG to 5-GO produced by WT ORF2 under the same conditions. In some aspects, the mutant ORF2 polypeptides disclosed herein produce a ratio of CBG to 5-GO that is lower than the ratio of CBG to 5-GO produced by WT ORF2 under the same conditions. In some embodiments, the ratio of CBG to 5-GO produced by the mutant ORF2 proteins of this disclosure may range from about 99:1 to up to about 62:38; or less than about 62:38 to about 1:99, for example about 5:95, about 10:90, about 15:85, about 20:80, about 25:75, about 30:70, about 35:65, about 40:60, about 45:55, about 50:50, about 55:45, about 60:40, about 65:35, about 70:30, about 75:25, about 80:20, about 85:15, about 90:10, about 95:5, or about 99:1, including all values and subranges that lie therebetween.

In some aspects, the mutant ORF2 polypeptides disclosed herein have an enzymatic activity higher than WT ORF2, wherein the mutant ORF2 polypeptides use O as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have an activity that is about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than the enzymatic activity of WT ORF2, wherein the mutant ORF2 polypeptides use O as substrate and GPP as donor.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of CBG than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of CBG than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of CBG than the WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, or about 100%), inclusive all the values and subranges that lie therebetween, lower % of CBG than WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a higher % of 5-GO than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher % of 5-GO than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GO than WT ORF2. In some aspects, the mutant ORF2 polypeptides disclosed herein produce about 1% to about 100% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%), inclusive all the values and subranges that lie therebetween, lower % of 5-GO than the WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBG production potential is higher than that of WT ORF2. As used herein, CBG production potential of an enzyme is calculated by multiplying the % CBG in total prenylated products by the % activity calculated when the mutant ORF-2 uses O as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein have a CBG production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein produce a lower % of 5-GO than WT ORF2; and have a CBG production potential that is higher than that of WT ORF2.

In some aspects, the mutant ORF2 polypeptides disclosed herein have a 5-GO production potential is higher than that of WT ORF2. As used herein, 5-GO production potential of an enzyme is calculated by multiplying the %5-GO in total prenylated products by the % activity calculated when the mutant ORF-2 uses O as substrate and GPP as donor. In some aspects, the mutant ORF2 polypeptides disclosed herein has a 5-GO production potential that is 1% to about 1000% (for example, about 1%, about 5%, about 10%, about 20%, about 30%, about 40%, about 50%, about 60%, about 70%, about 80%, about 90%, about 100%, about 150%, about 200%, about 300%, about 400%, about 500%, about 600%, about 700%, about 800%, or about 900%), inclusive all the values and subranges that lie therebetween, higher than that of WT ORF2.

ORF2 Mutants Catalyzing a Reaction at pH 5.3

In some aspects, the ORF2 mutants disclosed herein have improved function at a pH range of about 3 to about 8, for instance, about 3.5, about 4, about 4.5 about 5, about 5.5, about 6, about 6.5, about 7, about 7.5, about 8, including all values and subranges therebetween. In some aspects, the ORF2 mutants disclosed herein which have improved function at acidic pH may be used in combination with at least one other enzyme which has optimal function at acidic pH. In some aspects, the at least one enzyme is CBD synthase.

In some aspects, the mutant ORF2 polypeptides disclosed herein have improved enzymatic function (increased amount of prenylated products, increased % CBGA or 5-GOA produced, increased % activity and/or increased CBGA or 5-GOA production potential) at pH 5.3 compared to WT ORF2 at the same pH. WT ORF2 has little to no activity at this acidic pH. Therefore, in some aspects, the ORF2 mutants disclosed herein which have improved function at pH 5.3 may be used in situations where a low pH is needed to be maintained. For instance, CBD synthase has optimal pH at around 5.3. Therefore, the ORF2 mutants disclosed herein which have improved function at pH 5.3 may be used for carrying out single-pot reactions along with CBD synthase.

Polynucleotides, Vectors and Methods

The disclosure provides isolated or purified polynucleotides that encode any one of the ORF2 mutant polypeptides disclosed herein. The disclosure provides polynucleotides comprising a nucleic acid sequence with at least about 80% identity (for instance, about 85%, about 90%, about 95%, about 96%, about 97%, about 98%, or about 99%, and inclusive of all values and subranges therebetween) to the nucleic acid sequence set forth in [[all the DNA SEQ ID Nos.]].

The disclosure provides a vector comprising any one of the ORF2 mutant polynucleotide sequences disclosed herein.

The disclosure further provides a host cell comprising any one of the vectors disclosed herein; any one of the polynucleotides disclosed herein; or any one of the polynucleotides encoding the ORF2 mutants disclosed herein. Non-limiting examples of host cells include microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cell culture, plant cultures; and whole terrestrial plants. In some aspects, expression of any one of the vectors disclosed herein; any one of the polynucleotides disclosed herein; or any one of the polynucleotides encoding the ORF2 mutants disclosed herein may be done ex vivo or in vitro. In some aspects, expression of any one of the vectors disclosed herein; any one of the polynucleotides disclosed herein; or any one of the polynucleotides encoding the ORF2 mutants disclosed herein may be done in cell-free systems.

The disclosure provides methods of producing any one of the mutant ORF2 polypeptides disclosed herein, comprising culturing the host cell comprising any one of the vectors disclosed herein, in a medium permitting expression of the mutant ORF2 polypeptide, and isolating or purifying the mutant ORF2 polypeptide from the host cell.

The disclosure provides methods of producing CBGA in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a CBGA production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of 5-GOA than WT ORF2. In some aspects, the CBGA is produced ex vivo or in vitro. In some aspects, CBGA is produced in cell-free systems. In some aspects, the CBGA is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the CBGA is produced in the medium of host cell culture.

The disclosure provides methods of producing 5-GOA in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a 5-GOA production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of CBGA than WT ORF2. In some aspects, the 5-GOA is produced ex vivo or in vitro. In some aspects, 5-GOA is produced in cell-free systems. In some aspects, the 5-GOA is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the 5-GOA is produced in the medium of host cell culture.

The disclosure provides methods of producing CBGVA in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a CBGVA production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of 5-GDVA than WT ORF2. In some aspects, the CBGVA is produced ex vivo or in vitro. In some aspects, CBGVA is produced in cell-free systems. In some aspects, the CBGVA is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the CBGVA is produced in the medium of host cell culture.

The disclosure provides methods of producing 5-GDVA in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a 5-GDVA production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of CBGVA than WT ORF2. In some aspects, the 5-GDVA is produced ex vivo or in vitro. In some aspects, 5-GDVA is produced in cell-free systems. In some aspects, the 5-GDVA is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the 5-GDVA is produced in the medium of host cell culture.

The disclosure provides methods of producing CBG in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a CBG production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of 5-GO than WT ORF2. In some aspects, the CBG is produced ex vivo or in vitro. In some aspects, CBG is produced in cell-free systems. In some aspects, the CBG is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the CBG is produced in the medium of host cell culture.

The disclosure provides methods of producing 5-GO in a host cell, comprising expressing a mutant ORF2 polypeptide, wherein the mutant ORF2 polypeptide has a 5-GO production potential that is higher than that of WT ORF2, and wherein the mutant ORF2 polypeptide produces a lower % of CBG than WT ORF2. In some aspects, the 5-GO is produced ex vivo or in vitro. In some aspects, 5-GO is produced in cell-free systems. In some aspects, the 5-GO is produced in host cells, such as, for example, microbial host cells, such as, for example, bacteria, E. coli, yeast, microalgae; non-microbial hosts, such as, for example, insect cells, mammalian cells, plant cells; and whole terrestrial plants. In some aspects, the 5-GO is produced in the medium of host cell culture.

It is to be understood that the description above as well as the examples that follow are intended to illustrate, and not limit, the scope of the invention. Other aspects, advantages and modifications within the scope of the invention will be apparent to those skilled in the art to which the invention pertains.

All patents, patent applications, references, and journal articles cited in this disclosure are expressly incorporated herein by reference in their entireties for all purposes.

EXAMPLES Example 1: Methods for Generating and Studying ORF2 Variants

A. Construction of a Synthesized Gene Library of n=96 Orf2 Variants with Select Amino Acid Substitutions and Other Orf2 Variants.

DNA plasmids encoding the 96 “tripleton” variants of orf2 (orf2 variants) were ordered and delivered in the background of the T5 expression vector pD441-SR from DNA2.0 (now ATUM, catalog pD441-SR). The sequences for the 96 variants are described as SEQ ID NO: DNA_150247-DNA_150342. Each Orf2 variant contains a unique combination of three amino acid substitutions relative to the base construct (SEQ ID NO: DNA_consensus).

All variants aside from the tripleton parental variants were created using site directed mutagenesis with QuikChange II Site-Directed Mutagenesis Kit (Agilent catalog #200523). Standard manufacturer protocols were employed.

B. Expression and Purification of Proteins from the Synthesized Orf2 Gene Library of Orf2 Variants.

DNA plasmids containing each of the Orf2 variants were individually transformed into OneShot BL21(DE3) chemically competent E. coli cells (Invitrogen catalog C600003) according to the chemically competent cell transformation protocol provided by Invitrogen. This resulted in 96 individual E. coli cell lines, each containing one plasmid encoding an Orf2 variant.

To induce protein expression, individual cell lines encoding each of the “orf2 variants” was individually inoculated into 2 milliliters LB media with 50 micrrograms per milliliter of Kanamycin sulfate in 15 milliliter culture tubes and grown at 37 degrees Celsius for 16 hours with vigorous shaking. After 16 hours, each culture was diluted into 38 milliliters LB media with 50 micrograms per milliliter of Kanamycin sulfate for a total of 40 milliliters. The absorbance at 600 nm (OD600) was monitored until it reached a value of 0.6 absorbance units. When the OD600 reached a value of 0.6, then IPTG was added to each culture to a final concentration of 500 micrograms per milliliter, resulting in an “induced culture.” Each “induced culture” was grown at 20 degrees Celsius with vigorous shaking for 20 hours.

After the cultures were grown under protein induction conditions, the target protein was extracted following a standard protein purification protocol. Each “induced culture” was spun at 4,000G for 5 minutes. The supernatant was discarded, leaving only a cell pellet. Each individual cell pellet was resuspended in 25 milliliters of a solution containing 20 millimolar Tris-HCL, 500 millimolar sodium chloride, 5 millimolar imidazole, and 10% glycerol (“lysis buffer”), resulting in a “cell slurry.” To each individual “cell slurry”, 30 microliters of 25 units per microliter Benzonase (Millipore, Benzonase, catalog number 70664-1), as well as 300 microliters of phosphatase and protease inhibitor (Thermo-Fisher, Halt Protease and Phosphatase Inhibitor Cocktail, EDTA-free, catalog number 78441) was added. Each individual “cell slurry” was then subjected to 30 second pulses of sonication, 4 times each, for a total of 120 seconds, using the Fisher Scientific Sonic Dismembrator Model 500 under 30% amplitude conditions. In between each 30 second pulse of sonication, the “cell slurry” was placed on ice for 30 seconds. After sonication, each individual “cell slurry” was centrifuged for 45 minutes at 14,000 times gravity.

Protein purification columns (Bio-Rad, Econo-Pac Chromotography Columns, catalog number 7321010) were prepared by adding 1.5 milliliters His60 resin slurry (Takara, His60 nickel superflow resin, catalog number 635660). 5 milliliters deionized water was added to resin slurry, to agitate and rinse the resin. The columns were then uncapped and the resulting flow-through was discarded. Then, 5 milliliters deionized water was added a second time, and the resulting flow-through was discarded. Then, 10 milliliters “lysis buffer” was added to the resin, completely disturbing the resin bed, and the flow-through was discarded.

The protein purification columns were capped, and the supernatant from the “cell slurry” was added to the resin bed without disturbing the resin bed. The columns were uncapped, allowing the supernatant to pass over the resin bed. The resin was then washed 2 times with 10 milliliters of a solution containing 20 millimolar Tris-HCl, 500 millimolar sodium chloride, and 20 millimolar imidazole (“wash buffer”). The flow-through from the wash steps was discarded. The protein was then eluted off the column with 10 milliliters of a solution containing 20 millimolar Tris-HCl, 200 millimolar sodium chloride, and 250 millimolar imidazole. The eluted protein was collected and dialyzed overnight in 4 liters of a solution containing 200 millimolar Tris-HCl and 800 millimolar sodium chloride in 3.5-5.0 kilodalton dialysis tubing (Spectrum Labs, Spectra/Por dialysis tubing, catalog number 133198). After overnight dialysis, protein was concentrated to approximately 10 milligrams per milliliter using centrifugal protein filters (Millipore Amicon Ultra-15 Ultracel 10K, catalog number UFC901024).

C. Screening of the Orf2 Protein Variants for Protein Activity and Phenotypes.

The library of orf2 variants were screened for protein expression by western blot with an anti-HIS antibody (Cell Signaling Technologies, anti-his monoclonal antibody, catalog number 23655) according to the protocol provided by Cell Signaling Technologies for the antibody. The variants that had detectable levels of protein expression as determined by western blot were used in a prenylation assay.

Proteins that exhibited detectable expression by Western blot were assayed for prenylation activity using a substrate (e.g. olivetolic acid, olivetol, divarinic acid, etc.) and a donor molecule (e.g. GPP, FPP, DMAPP, etc.). Unless otherwise stated, each prenylation reaction assay was performed in a volume of 20 microliters and contained 20 millimolar magnesium chloride (MgCl2), 2 millimolar donor molecule (e.g. GPP), 100 millimolar HEPES buffer at a pH of 7.5, 2 millimolar substrate (e.g. olivetolic acid), and 20 micrograms Orf2 protein or Orf2 variant protein. These reactions were incubated for 16 hours at 30° C.

For those prenylation reactions carried out at pH 5.3, the same prenylation reaction assay protocol above was carried out with the exception of replacing HEPES buffer with sodium citrate at pH 5.3.

To assess prenylation activity by HPLC the prenylation products were extracted from the assay reaction with the following protocol: 40 microliters of ethyl acetate was added to each reaction and vortexed thoroughly. After vortexing, each reaction was centrifuged for 10 minutes at 14,000G. The top layer (“organic layer”) was collected. This was repeated twice. The collected organic layer was evaporated, and the resulting residue was resuspended in 40 microliters of 100% methanol. After resuspending in methanol, 40 microliters of 100% HPLC grade water was added to bring the final solution to 50% methanol. These will be referred to as the “variant reactions with GPP.”

The final 50% methanol solutions were run on a Thermo Fisher UltiMate 3000 UHPLC with an Acclaim RSLC 120 angstrom C18 column with a 4 millimeter Phenomonex Securityguard guard column (54 millimeter total column length).

The wild type Orf2 standard prenylation assay produces two products as determined by HPLC, with retention times of approximately 6.9 minutes (an “early product” which is cannabigerolic acid [CBGA]) and 7.2 minutes (a “late product” 5-GOA) in a ratio of −20% CBGA to 80% 5-GOA.

Example 2: Generation of ORF2 Variants which Synthesize an Altered Amount of CBGA and/or 5-GOA, Compared to WT ORF2

A rational design approach was used to generate a library of 96 ORF2 triple mutants in which each triple mutant carried amino acid substitutions at 3 of 36 selected residues following the methods described in Example 1. These triple mutants may be interchangeably referred to as tripleton variants or tripleton mutants. Each amino acid substitution was employed 3-5 times in the library. From 66 of the 96 clones each carrying a unique tripleton ORF2 variant, ORF2 mutant proteins were expressed and their activity was analyzed as described in Example 1.

Table 1 provides a summary of the analysis performed on the enzymatic activity of the ORF2 variants to produce CBGA and 5-GOA using Olivetolic Acid (OA) as substrate and Geranyl pyrophosphate (GPP) as donor. Table 1 lists the mutations within each of the tripleton mutants as well the nMol of CBGA produced, nMol of 5-GOA produced, total prenylated products produced (nMol of CBGA+5-GOA), % CBGA within total prenylated products (nMol of CBGA/[nMol of CBGA+5-GOA]), % enzymatic activity (total prenylated products produced by a mutant/total prenylated products produced by wild-type ORF2), CBGA production (% CBGA among total prenylated products * % enzymatic activity), and %5-GOA within prenylated products (nMol of 5-GOA/[nMol of CBGA+5-GOA]) for each of the ORF2 variants.

TABLE 1 Analysis of ORF2 mutants and WT ORF2 based on production of CBGA from OA and GPP CBGA Production Ser. nMol nMol Total % % (% CBGA % No. CLONE Mutations CBGA 5-GOA Product CBGA Activity *% activity) 5-GOA n/a WT WT 1.693073479 6.906720359 8.599793838 19.7% 100.0% 0.2  80.31% 1 F08 A53T_N173D_S214R 0.696655254 0.019606549 0.716261803 97.3%  8.6% 0.1  2.7% 2 G12 A17T_Q161W_A232S 6.109902555 0.614932664 6.724835219 90.9%  78.2% 0.7  9.1% 3 G11 S177W_Y288H_V294N 0.145430603 0.029376815 0.174807419 83.2%  2.0% 0.0 16.8% 5 H02 A53Q_S177W_L219F 3.42156966 1.080670716 4.502240376 76.0%  52.4% 0.4 24.0% 6 H06 V49L_E112D_G286E 0.070345009 0.025481912 0.095826921 73.4%  1.1% 0.0 26.6% 8 A04 L219F_V294N_Q295A 3.234527258 1.296738843 4.531266102 71.4%  40.6% 0.3 28.6% 10 C03 V49L_S214R_V271E 0.048617329 0.024425667 0.073042996 66.6%  0.8% 0.0 33.4% 11 F09 Q38G_D166E_Q295A 0.915880959 0.48336414  1.399245099 65.5%  16.8% 0.1 34.5% 13 H05 S177E_S214R_R228E 0.039715565 0.022115131 0.061830696 64.2%  0.7% 0.0 35.8% 14 G09 M106E_G205L_C209G 0.026257572 0.016437814 0.042695385 61.5%  0.5% 0.0 38.5% 15 G07 V49S_Y216A_V294N 0.503397419 0.325323475 0.828720894 60.7%  9.6% 0.1 39.3% 16 A11 V49L_D166E_L274V 0.028022123 0.018946396 0.046968518 59.7%  0.4% 0.0 40.3% 17 C10 A53Q_L274V_Q295A 0.157229392 0.108397148 0.26562654 59.2%  2.8% 0.0 40.8% 18 D11 F123H_L174V_S177E 0.573031341 0.397874307 0.970905647 59.0%  11.7% 0.1 41.0% 19 B11 V49S_K119D_F213M 0.029022913 0.020200687 0.049223599 59.0%  0.5% 0.0 41.0% 20 B10 M106E_Y121W_D166E 0.032314986 0.023237391 0.055552377 58.2%  0.6% 0.0 41.8% 21 G10 V49A_Y121W_C230S 0.0186463 0.013731186 0.032377485 57.6%  0.4% 0.0 42.4% 22 C05 A53Q_S177Y_Y288H 2.329839347 1.716266174 4.046105521 57.6%  42.6% 0.2 42.4% 23 C07 V49L_K119D_G205M 0.031761917 0.025613942 0.05737586 55.4%  0.6% 0.0 44.6% 24 A08 C25V_A232S_V271E 0.027785093 0.022445207 0.050230301 55.3%  0.5% 0.0 44.7% 25 C02 K118N_K119A_V271E 0.029312615 0.024755743 0.054068359 54.2%  0.6% 0.0 45.8% 26 D03 D227E_C230N_Q295W 0.28775349 0.249801954 0.537555444 53.5%  5.7% 0.0 46.5% 27 B05 A53Q_Y121W_A232S 0.01948907 0.017097967 0.036587037 53.3%  0.4% 0.0 46.7% 28 F10 K119D_Q161W_L298Q 0.044745852 0.039807235 0.084553087 52.9%  1.0% 0.0 47.1% 29 C06 Q161A_M162F_Q295A 0.926020543 0.852983892 1.779004435 52.1%  18.7% 0.1 47.9% 30 E09 A53T_M106E_Q161S 5.187648143 5.017560074 10.20520822   50.8% 122.8% 0.6 49.2% 31 A03 F123A_Y283L 0.051777719 0.05017164  0.101949359 50.8%  0.9% 0.0 49.2% 32 A10 V49S_K118Q_S177E 0.382933895 0.46547399  0.848407885 45.1%  7.6% 0.0 54.9% 33 A12 Y121W_S177Y_G286E 0.011983145 0.014853446 0.026836591 44.7%  0.2% 0.0 55.3% 34 B02 V49A_S177Y_C209G 0.025283118 0.031621336 0.056904454 44.4%  0.6% 0.0 55.6% 35 B06 D166E_S177Y_S214F 0.024782723 0.033997888 0.058780611 42.2%  0.6% 0.0 57.8% 36 H11 A108G_Q161S_G205M 2.068317092 2.915368365 4.983685458 41.5%  58.0% 0.2 58.5% 37 D10 V49A_F123A_Y288H 0.010034238 0.015117507 0.025151745 39.9%  0.3% 0.0 60.1% 38 A09 V49A_Q161S_V294A 3.196576244 4.907578558 8.104154803 39.4%  72.7% 0.3 60.6% 39 D04 A53T_D166E_Q295W 2.748485647 4.298125165 7.046610812 39.0%  74.2% 0.3 61.0% 40 E10 E112D_K119A_N173D 0.066631551 0.108199102 0.174830653 38.1%  2.1% 0.0 61.9% 41 F12 A17T_V49A_C230N 0.043402686 0.087998416 0.131401102 33.0%  1.5% 0.0 67.0% 42 C09 A108G_K119D_L298A 0.03605478 0.074993398 0.111048179 32.5%  1.2% 0.0 67.5% 43 H01 K119A_Q161A_R228Q 0.057018699 0.121006073 0.178024772 32.0%  2.1% 0.0 68.0% 44 H04 M162A_C209G_Y288H 0.061917303 0.154673884 0.216591187 28.6%  2.5% 0.0 71.4% 45 G06 K118Q_F123A_R228E 0.020437187 0.051491946 0.071929133 28.4%  0.8% 0.0 71.6% 46 B04 A53E_A108G_K118N 0.020779563 0.052812252 0.073591815 28.2%  0.8% 0.0 71.8% 47 D01 K118Q_Q161W_S214F 0.095601791 0.258515976 0.354117767 27.0%  3.7% 0.0 73.0% 48 A07 G205L_R228E_C230N 0.020700553 0.064562979 0.085263532 24.3%  0.8% 0.0 75.7% 49 D09 K118N_C209G_R228Q 0.008954438 0.028122524 0.037076962 24.2%  0.4% 0.0 75.8% 50 B09 C25V_F213M_Y216A 0.07951014 0.260364405 0.339874544 23.4%  3.6% 0.0 76.6% 51 G04 D227E_R228E_L298Q 0.015591256 0.056443095 0.072034351 21.6%  0.8% 0.0 78.4% 52 B08 K118Q_L174V_R228Q 0.044903871 0.167216794 0.212120666 21.2%  2.2% 0.0 78.8% 54 G05 A53T_K118N_S214F 0.581906769 2.595590177 3.177496945 18.3%  36.9% 0.1 81.7% 55 B12 A17T_F123W_L298A 0.125256782 0.602323739 0.727580521 17.2%  7.7% 0.0 82.8% 56 A05 A17T_C25V_E112G 0.964577298 6.867309216 7.831886514 12.3%  70.3% 0.1 87.7% 57 C08 V49S_S214G_V294A 0.390782196 3.025481912 3.416264108 11.4%  36.0% 0.0 88.6% 58 C11 E112D_L219F_V294F 0.971214116 7.558225508 8.529439625 11.4%  89.8% 0.1 88.6% 59 A02 Q38G_E112D_F123H 0.271319463 3.467916557 3.739236019  7.3%  33.5% 0.0 92.7% 60 D08 E112D_K119A_N173D 0.003976824 0.051557961 0.055534785  7.2%  0.7% 0.0 92.8% 61 D12 A53T_E112D_G205M 1.387332104 23.71798257   25.10531468  5.5% 302.1% 0.2 94.5% 62 G03 L219F_Y283L_L298W 0.286120622 5.898930552 6.185051173  4.6%  71.9% 0.0 95.4% 63 H10 M162A_N173D_S214F 0.189544377 3.951874835 4.141419212  4.6%  48.2% 0.0 95.4% 64 H09 E112G_G205M_L298W 0.422149065 13.32116451   13.74331358    3.1% 159.8% 0.0 96.9% 65 C01 V49S_M162A_Y283L 0.08967606 2.97900713  3.06868319   2.9%  32.3% 0.0 97.1% 66 D06 A53E_Q161A_V294N 0.453779299 16.8069052   17.2606845    2.6% 181.7% 0.0 97.4% 67 H07 F123A_M162F_S214G 0.049749802 1.903023501 1.952773304  2.5%  22.7% 0.0 97.5% 68 G02 A53E_F213M_R228Q 0.056544641 2.991418009 3.047962649  1.9%  35.4% 0.0 98.1% 69 C12 N173D_F213M_V294F 0.051988412 6.831726961 6.883715373  0.8%  72.4% 0.0 99.2% 70 D07 K119A_S214G_L298A 0.037266263 6.776340111 6.813606374  0.5%  82.0% 0.0 99.5%

The amount of CBGA or 5-GOA (in nMols) generated by each of the ORF2 triple mutant clones was measured using HPLC. FIG. 1 shows the total nMols of prenylated products generated using OA as substrate and GPP as donor by each of the ORF2 triple mutants, and the proportion of CBGA and 5-GOA within the total amount of prenylated products. An exemplary Wild Type ORF2 replicate is included in the graph for comparison purposes.

FIG. 2 shows the % CBGA within the total prenylated products produced by each of the ORF2 triple mutant clones using OA as substrate and GPP as donor. In this graph, the mutant clones are ordered based on decreasing % CBGA (from left to right) they produce, with the %5-GOA depicted in red. The black threshold line on the graph indicates the % CBGA that is produced by the wild type enzyme.

FIG. 3 shows the ORF2 enzymatic activity (using OA as substrate and GPP as donor) of each of the triple mutant ORF2 clones relative to the wild type enzyme. % activity was calculated by dividing the nMols of total prenylated products produced by a mutant by the nMols of total prenylated products produced by the wild type control, and expressed as a percentage. The red threshold line is the wild type Orf2% activity.

FIG. 4 shows the CBGA production potential of each of the ORF2 triple mutant clones when using OA as substrate and GPP as donor. CBGA production potential (interchangeably referred to herein as CBGA production quotient) represents the improvement in CBGA production vs. the wild type enzyme. CBGA production potential was calculated by multiplying the % CBGA by the % activity of each mutant. For instance, a wild type ORF2, which makes ˜20% CBGA, and has an activity of 100%, would have a CBGA Production Potential of 0.2. The red threshold line on the graph represents this wild type value of 0.2.

While the CBGA production potential analysis shown in FIG. 4 is useful to rank ORF2 mutant clones based on the amount of CBGA produced, such an analysis would not differentiate between a mutant that made 100% CBGA but was 20% as active as wild-type ORF2; or a mutant that made 10% CBGA and was 200% as active as wild type ORF2. Therefore, we employed a cluster analysis by plotting the CBGA Production Potential vs. %5-GOA (FIG. 5). %5-GOA was calculated in a similar manner as % CBGA. We used the top 16 mutants ranked based on their CBGA production potential for this analysis. High 5-GOA producing mutants cluster together towards the right of the graph and high CBGA producing mutants cluster towards the left of the graph.

Based on the analysis performed in FIG. 5, 13 mutants which cluster to the left of the graph were selected (Table 2). These clones were targeted for “breakdown” analysis. Breakdown analysis involves breaking a parent triple mutant into all pair wise doubleton combinations of mutations as well as all singleton mutations that make up the parental clone. For each parental clone targeted six unique mutants are generated (3 doubles and 3 singles).

TABLE 2 CBGA Production Clone Rank ID Mutations  1 G12 A17T_Q161W_A232S  2 E09 A53T_M106E_Q161S  3 H02 A53Q_S177W_L219F  4 A04 L219F_V294N_Q295A  5 D04 A53T_D166E_Q295W  6 A09 V49A_Q161S_V294A  7 C05 A53Q_S177Y_Y288H  8 H11 A108G_Q161S_G205M 10 F09 Q38G_D166E_Q295A 12 C06 Q161A_M162F_Q295A 14 F08 A53T_N173D_S214R 15 D11 F123H_L174V_S177E 16 G05 A53T_K118N_S214F

For the singleton and doubleton mutants resulting from the breakdown of triple mutants—E09, H02, A04, D04, A09, C05, H011, F09, D011, and G05—the total amount of prenylated products (and the respective proportion of CBGA and 5-GOA); and % CBGA within the prenylated products was calculated. FIGS. 6-15 depict the total amount of prenylated products and % CBGA produced using OA as substrate and GPP as donor for the mutants derived from E09 (FIG. 6); H02 (FIG. 7); A04 (FIG. 8); D04 (FIG. 9); A09 (FIG. 10); C05 (FIG. 11); H011 (FIG. 12); F09 (FIG. 13); D011 (FIG. 14); and G05 (FIG. 15). The % CBGA; % enzymatic activity; and the CBGA production potential for these clones, along with the mutations they carry, are listed in Table 3.

In a similar manner, the triple mutants, G12, C06 and F08, will also be subjected to “breakdown” analysis. Further, the singleton and double mutants resulting from the breakdown of G12, C06 and FO will be analyzed to determine the total amount of prenylated products (and the respective proportion of CBGA and 5-GOA); and % CBGA within the prenylated products produced by these mutants, as described above.

TABLE 3 Summary table of enzymatic activity of triple mutants; and the double and single mutants resulting from the breakdown thereof % CBGA CBGA/5-G Production nMol nMol Total (nMol % (% CBGA CBGA 5GOA Product Calculation) Activity *% activity) E9 A53T_M106E_Q161S 5.18764814 5.01756007 10.2052082   50.8% 122.8% 0.6 025 A53T_M106E 2.25762444 8.84592025 11.1035447   20.3% 163.7% 0.3 026 A53T_Q_161S 5.06402423 20.7614206   25.8254449   19.6% 190.3% 0.37 027 M106E_Q_161S 1.97260996 1.70913652 3.68174647 53.6%  27.1% 0.15 033 A53T 2.53858309 22.0230393   24.5616224  10.3% 228.1% 0.2 040 M106E 1.13455359 2.15698442 3.29153802 34.5%  30.6% 0.1 041 Q161S 5.90281801 11.3076974   17.2105154   34.3% 166.7% 0.6 H2 A53Q_S177W_L219F 3.42156966 1.08067072 4.50224038 76.0%  52.4% 0.4 007.2 A53Q_S177W 4.76897551 1.45933457 6.22831007 76.6%  57.8% 0.4 008 A53Q_L219F 1.86626284 9.95471349 11.8209763   15.8% 109.7% 0.2 009 S177W_L219F 1.5588886  0.40797465 1.96686325 79.3%  29.0% 0.2 032 A53Q 1.79288912 11.8606417   13.6535308 13.1% 126.8% 0.2 039.2 L219F 1.93410587 6.27917877 8.21328464 23.5%  76.3% 0.2 046 S177W 3.56125889 0.68108001 4.2423389  83.9%  41.1% 0.3 A4 L219F_V294N_Q295A 3.23452726 1.29673884 4.5312661  71.4%  40.6% 0.3 004 L219F_V294N 2.50545167 15.4131899   17.9186415   14.0% 166.3% 0.2 005.1 L219F_Q295A 2.25069792 0.63585952 2.88655744 78.0%  26.8% 0.2 006 V294N_Q295A 2.49960495 16.7207552   19.2203602   13.0% 178.4% 0.2 039.1 L219F 1.56952858 5.33575389 6.90528247 22.7%  64.1% 0.1 042 Q295A 3.49144061 1.05584896 4.54728957 76.8%  44.0% 0.3 050 V294N 2.00010535 12.8829548   14.8830602   13.4% 144.2% 0.2 D4 A53T_D166E_Q295W 2.74848565 4.29812517 7.04661081 39.0%  74.2% 0.3 016 A53T_D166E 0.82704767 12.2768022   13.1038499    6.3% 193.2% 0.1 017 A53T_Q295W 5.82552015 4.01524954 9.84076969 59.2% 145.1% 0.9 018 D166E_Q295W 3.43766131 1.92018748 5.3578488  64.2%  79.0% 0.5 033 A53T 2.53858309 22.0230393   24.5616224 10.3% 228.1% 0.2 034 D166E 0.93471161 4.71177713 5.64648875 16.6%  52.4% 0.1 043 Q295W 11.4932578   3.57948244 15.0727403   76.3% 146.0% 1.1 A9 V49A_Q161S_V294A 3.19657624 4.90757856 8.1041548  39.4%  72.7% 0.3 022 V49A_Q161S 1.74851198 2.17764721 3.9261592  44.5%  57.9% 0.3 023 V49A_V294A 0.78309191 2.6874835  3.47057541 22.6%  51.2% 0.1 024 Q161S_V294A 4.87521728 12.8399129   17.7151301   27.5% 261.2% 0.7 041 Q161S 5.90281801 11.3076974   17.2105154   34.3% 166.7% 0.6 049 V294A 2.4024493  16.2872987   18.689748    12.9% 181.0% 0.2 051 V49A 0.78854359 1.76458938 2.55313297 30.9%  24.7% 0.1 C5 A53Q_S177Y_Y288H 2.32983935 1.71626617 4.04610552 57.6%  42.6% 0.2 019 A53Q_S177Y 0.44303397 4.4004489  4.84348288  9.1%  71.4% 0.1 020 A53Q_Y288H 3.49228338 1.37476895 4.86705233 71.8%  71.8% 0.5 021 S177Y_Y288H 1.27124045 0.5814629  1.85270335 68.6%  27.3% 0.2 032 A53Q 1.79288912 11.8606417   13.6535308   13.1% 126.8% 0.2 047 S177Y 0.52881222 2.78901505 3.31782727 15.9%  32.1% 0.1 052 Y288H 2.15583355 0.63321891 2.78905246 77.3%  27.0% 0.2 H11 A108G_Q161S_G205M 2.06831709 2.91536837 4.98368546 41.5%  58.0% 0.2 010 A108G_Q161S 1.07729787 1.38302086 2.46031873 43.8%  36.3% 0.2 011 A108G_G205M 0.189202   1.1392263  1.3284283  14.2%  19.6% 0.0 012 Q161S_G205M 2.73157756 6.75105625 9.48263381 28.8% 139.8% 0.4 031 A108G 0.26987095 1.27515184 1.54502279 17.5%  14.4% 0.0 036 G205M 2.02009481 10.8182598   12.8383546   15.7% 119.2% 0.2 041 Q161S 5.90281801 11.3076974   17.2105154   34.3% 166.7% 0.6 F9 Q38G_D166E_Q295A 0.91588096 0.48336414 1.3992451  65.5%  16.8% 0.1 001 Q38G_D166E 0.44666842 2.19118035 2.63784878 16.9%  24.5% 0.0 002 Q38G_Q295A 2.20134317 7.38011619 9.58145935 23.0%  88.9% 0.2 003 D166E_Q295A 1.57469055 0.7702667  2.34495725 67.2%  21.8% 0.1 034 D166E 0.93471161 4.71177713 5.64648875 16.6%  52.4% 0.1 042 Q295A 3.49144061 1.05584896 4.54728957 76.8%  44.0% 0.3 044 Q38G 1.09681327 4.18807763 5.28489091 20.8%  51.2% 0.1 D11 F123H_L174V_S177E 0.57303134 0.39787431 0.97090565 59.0%  11.7% 0.1 013 F123H_L174V 0.1767448  1.15110906 1.32785386 13.3%  19.6% 0.0 014 F123H_S177E 0.51964709 0.37740956 0.89705665 57.9%  13.2% 0.1 015 L174V_S177E 4.34427179 1.80921574 6.15348753 70.6%  90.7% 0.6 035 F123H 0.28346063 2.26571165 2.54917227 11.1%  23.7% 0.0 038 L174V 1.91411641 6.27865065 8.19276705 23.4%  80.0% 0.2 045 S177E 6.41430076 2.15579614 8.57009691 74.8%  83.0% 0.6 G5 A53T_K118N_S214F 0.58190677 2.59559018 3.17749695 18.3%  36.9% 0.1 028 A53T_K118N 0.2830129  4.06093214 4.34394504  6.5%  64.1% 0.0 029.2 A53T_S214F 1.51042929 4.76392923 6.27435852 24.1%  92.5% 0.2 030 K118N_S214F 0.14572031 0.33747029 0.4831906  30.2%  7.1% 0.0 033 A53T 2.53858309 22.0230393   24.5616224   10.3% 228.1% 0.2 037 K118N 0.28854359 1.24042778 1.52897137 18.9%  14.2% 0.0 048 S214F 1.11524888 2.08588593 3.20113481 34.8%  31.0% 0.1 G12 A17T_Q161W_A232S 6.10990255 0.61493266 6.72483522 90.86%  78.20% 0.7 q423-1 A17T 1.06431393 5.17593082 6.24024475 17.06%  50.31% 0.1 EE09 Q161W 0.37682381 1.63856615 2.01538996 18.70%  19.52% 0.0 424-1 A232S 8.72878588 1.57004225 10.2988281 84.76%  83.03% 0.7 C06 Q161A_M162F_Q295A 0.92602054 0.85298389 1.77900443 52.05%  18.72% 0.10 DD01 Q161A 0.94174348 12.9347769   13.8765203   6.79% 192.32%  0.13 431-1 M162F 0.94661575 0.40150515 1.3481209  70.22%  10.87% 0.08 042 Q295A 3.49144061 1.05584896 4.54728957 76.78%  46.74% 0.36 F08 A53T_N173D_S214R 0.69665525 0.01960655 0.7162618  97.26%   8.62% 0.08 033 A53T 2.53858309 22.0230393   24.5616224   10.34%  220.33%  0.23 427-4 N173D 0.07008164 0.44725376 0.51733541 13.55%   4.17% 0.01 BB05 S214R 4.81951541 0.02554793 4.84506333 99.47%  49.81% 0.50

This analysis provided important insights into which positions on ORF2, when mutated, are likely to give rise to significant effects on the enzymatic activity of ORF2 in the reaction using Olivetolic Acid (OA) as substrate and Geranyl pyrophosphate (GPP) as donor. Based on this analysis, the following amino acid sites were selected for targeted amino acid site saturation mutagenesis—M106, Q161, 5177, Q295, Y288, 5214, M162 and A232.

Site saturated mutagenesis was done for Q295, Q161, 5214 and Y288 by replacing the wild type residue with each of the other 19 standard amino acids. The amount of total prenylated products, the CBGA production potential and GOA production potential was measured for each of the site saturated mutants. These results are depicted in FIGS. 16, 17, 18 and 97; and Tables 4, 5, 6 and 7.

TABLE 4 Q295 site saturated mutants CBGA % Production CBGA/5-G potential 5-GOA nMol nMol Total (nMol % (% CBGA* % 5- Production Mutations CBGA 5GOA Product Calculation) Activity % activity) GOA Potential Q295H  4.22220174 22.7255743   26.9477761 15.7% 277.0% 0.43 84.33% 2.34 Q295Y  2.00331841 8.06476102 10.0680794 19.9% 103.5% 0.21 80.10% 0.83 Q295D  4.84511456 7.65619224 12.5013068 38.8% 128.5% 0.50 61.24% 0.79 Q295R  0.10247564 4.60489834   4.70737398  2.2%  48.4% 0.01 97.82% 0.47 Q295W 11.4932578  3.57948244 15.0727403 76.3% 154.9% 1.18 23.75% 0.37 Q295N  1.44316566 2.64978875  4.09295441 35.3%  42.1% 0.15 64.74% 0.27 Q295G  5.17814064 2.21283338  7.39097401 70.1%  76.0% 0.53 29.94% 0.23 Q295S  1.59531209 1.62780565  3.22311774 49.5%  33.1% 0.16 50.50% 0.17 Q295K  0.44076903 1.42738315  1.86815218 23.6%  19.2% 0.05 76.41% 0.15 Q295C  5.74598367 1.17837338  6.92435705 83.0%  71.2% 0.59 17.02% 0.12 Q295M 13.1925467  1.1651043  14.3576511 91.9% 147.6% 1.36  8.11% 0.12 Q295P  1.31361601 1.10628466  2.41990067 54.3%  24.9% 0.14 45.72% 0.11 Q295A  3.49144061 1.05584896  4.54728957 76.8%  46.7% 0.36 23.22% 0.11 Q295L 11.1453516  0.5400713  11.6854229 95.4% 120.1% 1.15  4.62% 0.06 Q2951  6.45699236 0.44982836  6.90682072 93.5%  71.0% 0.66  6.51% 0.05 Q295F 16.5020543  0.44533932 16.9473936 97.4% 174.2% 1.70  2.63% 0.05 Q295E  1.93961022 0.39358331  2.33319353 83.1%  24.0% 0.20 16.87% 0.04 Q295T 0.605399  0.37734354  0.98274254 61.6%  10.1% 0.06 38.40% 0.04 Q295V  5.16273374 0.35549247  5.51822621 93.6%  56.7% 0.53  6.44% 0.04

TABLE 5 Q161 site saturated mutants CBGA Production potential 5-GOA nMol nMol Total % % (% CBGA* % Production Mutations CBGA 5GOA Product CBGA Activity % Activity) 5-GOA potential Q161C 1.254227021 11.51921   12.77343748  9.82% 208.10% 0.2 90.18% 1.88 Q161A 0.941743482 12.934777  13.87652035  6.79% 192.32% 0.1 93.21% 1.79 Q161L 4.847326837 9.7688144 14.6161412  33.16% 238.12% 0.8 66.84% 1.59 Q161T 3.438504082 9.1266174 12.56512146 27.37% 204.71% 0.6 72.63% 1.49 Q161P 0.405504346 14.929496   15.33499999  2.64% 148.54% 0.0 97.36% 1.45 Q1611 2.557940479 8.7985213 11.35646174 22.52% 185.01% 0.4 77.48% 1.43 Q161S 4.329707664 8.0136652 12.34337283 35.08% 201.09% 0.7 64.92% 1.31 Q161F 7.260284435 4.7907314 12.05101588 60.25% 196.33% 1.2 39.75% 0.78 Q161V 1.213141954 7.0618564   8.274998305 14.66%     0.667157399 0.1 85.34% 0.57 Q161N 1.500052673 4.9663322   6.466384862 23.20%  70.58% 0.2 76.80% 0.54 Q161G 1.023755597 4.8859916   5.909747147 17.32%  64.50% 0.1 82.68% 0.53 Q161M 2.039636555 3.1520993   5.191735842 39.29%  84.58% 0.3 60.71% 0.51 Q161K 1.740242297 1.3897544  3.12999672 55.60%  43.38% 0.2 44.40% 0.19 Q161W 0.376823808 1.6385661   2.015389956 18.70%  19.52% 0.0 81.30% 0.16 Q161Y 16.66784303   0.853644  17.52148708 95.13% 285.45% 2.7  4.87% 0.14 Q161R 12.29307348   0.8494851 13.14255856 93.54% 214.11% 2.0  6.46% 0.14 Q161E 0.711877798 1.1597571   1.871634862 38.04%     0.150897318 0.1 61.96% 0.09 Q161D 1.577482223 0.6375099   2.214992125 71.22%  21.46% 0.2 28.78% 0.06 Q161H 28.94774822   0.1498548 29.09760299 99.48% 474.04% 4.7  0.52% 0.02

TABLE 6 S214 site saturated mutants CBGA Production potential 5-GOA nMol nMol Total % % (% CBGA* % Production Mutations CBGA 5GOA Product CBGA Activity % Activity) 5-GOA potential S214G 0.24445615 20.3160153  20.5604715   1.19% 1.93572414 0.0 98.81% 1.91 S214A 0.25283118 10.2950885   10.5479196   2.40% 0.85040774 0.0 97.60% 0.83 S214T 1.76771135 6.74755743 8.51526878 0.20759314 87.5% 0.2 79.24% 0.69 S214V 1.32546747 5.81905202 7.14451949 0.18552227 73.4% 0.1 81.45% 0.60 S214F 0.49836713 1.06515712 1.56352425 0.31874602 16.1% 0.1 68.13% 0.11 S214C 0.10466157 1.04436229 1.14902387 0.09108738 11.8% 0.0 90.89% 0.11 S214N 0.68001053 0.82479535 1.50480589 0.45189253 15.5% 0.1 54.81% 0.08 S214D 0.45604425 0.81383681 1.26988106 0.35912359 13.1% 0.0 64.09% 0.08 S214W 0.04042665 0.43999208 0.48041873 0.08414879  4.9% 0.0 91.59% 0.05 S214I 0.56523571 0.41107737 0.97631308 0.57894924 10.0% 0.1 42.11% 0.04 S214Y 0.13197261 0.2728413  0.40481391 0.32600809  4.2% 0.0 67.40% 0.03 S214M 0.32538846 0.17685503 0.50224349 0.64786994  5.2% 0.0 35.21% 0.02 S214K 0.3499605  0.14536572 0.49532622 0.70652528  5.1% 0.0 29.35% 0.01 S214Q 9.75167237 0.17533668 9.92700905 98.23% 0.8003479  0.8  1.77% 0.01 S214E 0.92546747 0.1245709  1.05003837 0.88136538 10.8% 0.1 11.86% 0.01 S214L 0.09649723 0.09704251 0.19353975 0.4985913   2.0% 0.0 50.14% 0.01 S214P 0.00397682 0.07123053 0.07520735  5.29% 0.00734429 0.0 94.71% 0.01 S214R 4.81951541 0.02554793 4.84506333 0.99472702 49.8% 0.5  0.53% 0.00 S214H 11.2844614   0.02310536 11.3075668  0.99795665 116.2%  1.2  0.20% 0.00

TABLE 7 Y288 site saturated mutants CBGA Production potential 5-GOA nMol nMol 5- Total % % (% CBGA* % 5- Production Mutations CBGA GOA Product Activity CBGA % Activity) GOA potential Y288A 18.58056 0.080539 18.6611  150.45% 99.57% 1.50 0.43% 0.65% Y288C 15.67369 0.122326 15.79602 127.35% 99.23% 1.26 0.77% 0.99% Y288D  0.84335 0.022907  0.866257  6.98% 97.36% 0.07 2.64% 0.18% Y288E  0.689123 0.020267  0.70939  5.72% 97.14% 0.06 2.86% 0.16% Y288F 17.65373 0.056641 17.71037 142.79% 99.68% 1.42 0.32% 0.46% Y288G  3.125836 0.044626  3.170463  25.56% 98.59% 0.25 1.41% 0.36% Y288H   1.618251 0.489636  2.107887  16.99% 76.77% 0.13 23.23%  3.95% Y288I 18.85518 0.210655 19.06583 153.71% 98.90% 1.52 1.10% 1.70% Y288K  0.169213 0.019144  0.188357  1.52% 89.84% 0.01 10.16%  0.15% Y288L 22.29837 0.154872 22.45324 181.03% 99.31% 1.80 0.69% 1.25% Y288M 14.31317 0.177779 14.49095 116.83% 98.77% 1.15 1.23% 1.43% Y288P 20.40645 0.068656 20.47511 165.08% 99.66% 1.65 0.34% 0.55% Y288R   0.299368 0.050568  0.349936  2.82% 85.55% 0.02 14.45%  0.41% Y288S  3.383408 0.064497  3.447905  27.80% 98.13% 0.27 1.87% 0.52% Y288T 14.22997 0.21356 14.44353 116.45% 98.52% 1.15 1.48% 1.72% Y288W   4.307032 0.107671  4.414703  35.59% 97.56% 0.35 2.44% 0.87% Y288N  1.164077 0.105625  1.269701  10.24% 91.68% 0.09 8.32% 0.85%

Similarly, site saturated mutagenesis will also be completed for M106, and S177; and the amount of total prenylated products and the CBGA production potential will be measured for each of these site saturated mutants.

From the results described above, multiple mutations of Q295, Q161, Y288 and 5214 that have significantly higher CBGA production potential and/or the total amount of prenylated products, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using OA as a substrate and GPP as donor, as compared to WT ORF2.

Finally, ORF2 stacking mutants, that carry different novel combinations of the mutations identified by our analysis as being important for ORF2's enzymatic activity, were analyzed to determine the total amount of prenylated products they produce (FIG. 19); % enzymatic activity (FIG. 20), % CBGA (FIG. 21), and CBGA production potential (FIG. 22). Table 8 provides a summary of the enzymatic function, using OA as substrate and GPP as donor, for each of the stacking mutants. The analysis of the stacking mutants shows that multiple stacking mutants have significantly higher % enzymatic activity, % CBGA, and CBGA production potential, compared to the WT ORF2 or either singleton substitution variant on its own, thereby indicating that the ORF2 stacking mutants disclosed herein have synergistically enhanced effects compared to the individual single mutants. Thus, the ORF2 stacking mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using OA and GPP, as compared to WT ORF2.

For instance, ORF2 double mutants, A53T-S214R; Q161S-Q295L; Q161S-Q295F; S177W-Q295A have synergistically enhanced CBGA production potential and % activity as compared to either of the single mutants. See FIGS. 82-85.

More stacking mutants will be generated as described above, based on the breakdown analysis of triple mutants, G12, C06 and F08, and planned site saturation mutagenesis experiments described above. These stacking mutants will further be analyzed to determine their % enzymatic activity, % CBGA, %5-GOA and CBGA production potential.

TABLE 8 CBGA Production nMol nMol 5- Total % % (% CBGA* % Mutations OA CBGA 5-GOA CBGA GOA Product Activity CBGA % Activity) 5-GOA A53T_S214R 30.1449 62.6579 0.1069 16.5019489 0.07057037 16.5725193 229.69% 99.57% 2.29  0.43% Q161S_Q295L 29.7788 57.0803 0.4619 15.0329997 0.30492474 15.3379245 212.58% 98.01% 2.08  1.99% Q161S_Q295F 29.5883 55.4403 0.6309 14.6010798 0.41649063 15.0175704 208.14% 97.23% 2.02  2.77% A53T_Q295F 30.0898 52.6928 1.1825 13.8774822 0.78063111 14.6581133 203.16% 94.67% 1.92  5.33% A53T_Q161S_Q295W 32.3733 68.7659 4.4902 18.1105873 2.9642197  21.074807  157.59% 85.93% 1.35 14.07% Q161S_V294A_Q295W 39.2778 68.3285 2.8122 17.9953911 1.8564827  19.8518738 148.45% 90.65% 1.35  9.35% S214R_Q295F 43.7129 34.6447 0.1255   9.12422965 0.08284922  9.20707888 127.61% 99.10% 1.26  0.90% A53T_Q161S_ 33.6064 63.9702 4.908  16.8475639 3.24003169 20.0875956  150.21% 83.87% 1.26 16.13% V294A_Q295W A53T_Q161S_ 36.0016 58.018  7.059  15.2799579 4.66002112 19.939979  149.11% 76.63% 1.14 23.37% V294N_Q295W S177W_Q295A 39.381  56.035  0.1016 14.7577035 0.06707156 14.824775  110.86% 99.55% 1.10  0.45% A53T_S177W 54.8833 25.6741 1.8121   6.76168027 1.19626353   7.95794381 110.29% 84.97% 0.94 15.03% Q161S_V294A_Q295A 37.0068 46.9066 9.5266 12.3535949 6.28901505 18.64261   139.41% 66.27% 0.92 33.73% Q16S_S214R 58.7858 24.2694 0.1169   6.39173031 0.0771719    6.46890222  89.66% 98.81% 0.89  1.19% A53T_Q295W 44.9864 41.0901 9.6799 10.8217277 6.39021653 17.2119442 128.71% 62.87% 0.81 37.13% Q161S_S177W 54.4823 21.9926 0.6705   5.79209903 0.44263269   6.23473172  86.41% 92.90% 0.80  7.10% A53T_V294A_Q295W 48.2017 38.5309 12.362   10.1477219 8.16081331 18.3085352 136.91% 55.43% 0.76 44.57% A53T_V294A_Q295A 50.4412 37.8163 4.0888   9.95952067 2.69923422 12.6587549  94.66% 78.68% 0.74 21.32% A53T_Q161S_ 29.5636 36.8247 18.7595    9.69836713 12.3841431   22.0825103 165.13% 43.92% 0.73 56.08% V294A_Q295A A53T_Q161S_Q295A 54.602  34.1016 14.121     8.98119568 9.32202271 18.3032184 136.87% 49.07% 0.67 50.93% A53T_A161S 31.9028 16.0001 24.5577    4.21387938 16.2118431   20.4257225 283.09% 20.63% 0.58 79.37% A53T_Q161S_ 51.4284 28.9549 15.8073    7.62573084 10.435239    18.0609698 135.06% 42.22% 0.57 57.78% V294N_Q295A S177W_S214R 73.1056 14.1529 0.0913   3.72739004 0.06027198   3.78766203  52.50% 98.41% 0.52  1.59% A53T_Q295A 70.1304 26.0366 3.7553   6.85715038 2.47907314   9.33622353  69.81% 73.45% 0.51 26.55% A53T_Q161S_V294A 43.4482 15.381  33.5956   4.0508296 22.1782414   26.229071  196.14% 15.44% 0.30 84.56% A53T_Q161S_V294N 51.6804 11.9604 27.5382   3.1499605 18.1794296   21.3293901 159.50% 14.77% 0.24 85.23% V49A_S214R 91.0858  3.4446 0.0741   0.90718989 0.04891735   0.95610724  13.25% 94.88% 0.13  5.12% A53T_V294A 37.5911  5.8761 36.6497    1.54756387 24.1944151   25.741979  192.49%  6.01% 0.12 93.99% V49A_Q295L 81.26    2.3805 0.277    0.62694232 0.18286242   0.80980475  11.22% 77.42% 0.09 22.58%

Example 3: Generation of ORF2 Variants with Improved Enzymatic Function Using OA as Substrate and GPP as Donor

Four triple mutants (D12 carrying A53T_E112D_G205M mutations; D6 carrying A53E_Q161A_V294N mutations; H9 carrying E112G_G205M_L298W mutations; and E9 carrying A53T_M106E_Q161S mutations) that had improved activity vs. the WT ORF2, based on FIG. 3 were analyzed further. A53 (which was present in 3 out of 4 clones) and E112, Q161, and G205 (which were present in 2 out of 4 clones) were identified as target residues for site saturation.

Site-saturated mutagenesis was done for A53 by replacing the wild type residue at this site with each of the 19 other standard amino acids. % of enzymatic activity as compared to WT ORF2 was measured. These results are depicted in FIG. 23 and Table 9.

The site saturated mutants of Q161 described in Example 1 were also analyzed to determine their % activity in a reaction using OA as substrate and GPP as donor. These results are depicted in FIG. 24 and Table 10.

From the results described above, multiple mutations of A53 and Q161 that have significantly higher % activity, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using OA as a substrate and GPP as donor, as compared to WT ORF2.

Similarly, site saturated mutagenesis will also be completed for E112 and G205 as described above; and % of enzymatic activity, as compared to WT ORF2, will be measured for each of these mutants.

TABLE 9 % activity of A53 site saturation mutants nMol nMol Total % Mutations CBGA 5-GOA Product Activity A53T 2.38941269 19.8774096 22.2668223 228.9% A53I 3.24627337 17.3253235 20.5715968 211.5% A53V 3.89741902 15.1585688 19.0559878 195.9% A53L 3.44464051 14.9749802 18.4196207 189.3% A53M 2.57000263 12.7041194 15.274122 157.0% A53K 1.96415591 13.2969369 15.2610928 156.9% A53S 2.15754543 11.8968841 14.0544295 144.5% A53Q 1.67719252 10.5953921 12.2725847 126.2% A53N 0.64851198  6.83212305  7.48063504  76.9% A53R 0.86465631  5.83100079  6.6956571  68.8% A53W 0.51358968  5.14932664  5.66291632  58.2% A53G 0.72675797  3.94533932  4.67209729  48.0% A53D 0.77882539  3.02079482  3.79962021  39.1% A53Y 0.19694496  0.82981252  1.02675747  10.6% A53H 0.10524098  0.3159493  0.42119028  4.3% A53F 0.14669476  0.12793768  0.27463244  2.8% A53E 0.0294443  0.16054925  0.18999355  2.0% A53P 0.0118778  0.25745973  0.26933753 0.02630185

TABLE 10 % activity of Q161 site saturation mutants nMol nMol 5- Total % % CBGA Production Mutations CBGA GOA Product CBGA Activity (% CBGA* % Activity) Q161Y 16.667843   0.85364405 17.5214871 0.95128016 285.5% 2.7 Q161R 12.2930735  0.84948508 13.1425586 0.9353638  214.1% 2.0 Q161D 21.4621807  0.13090837 21.593089  0.99393749 209.2% 2.1 Q161C 1.25422702 11.5192105   12.7734375 0.09819025 208.1% 0.2 Q161T 3.43850408 9.12661738 12.5651215 0.27365466 204.7% 0.6 Q161S 4.32970766 8.01366517 12.3433728 0.35077185 201.1% 0.7 Q161F 7.26028444 4.79073145 12.0510159 0.60246244 196.3% 1.2 Q161A 0.94174348 12.9347769   13.8765203 0.06786597 192.3% 0.1 Q1611 2.55794048 8.79852126 11.3564617 0.22524097 185.0% 0.4 Q161P 0.40550435 14.9294956   15.335   0.02644306 148.5% 0.0 Q161M 2.03963656 3.15209929   5.19173584 0.39286216  84.6% 0.3 Q161Q 1.44664209 5.77105889   7.21770097 0.20042976  78.8% 0.2 Q161N 1.50005267 4.96633219   6.46638486 0.23197702  70.6% 0.2 Q161G 1.0237556  4.88599155   5.90974715 0.17323171  64.5% 0.1 Q161K 1.7402423  1.38975442   3.12999672 0.55598854  43.4% 0.2 Q161W 0.37682381 1.63856615   2.01538996 0.18697315  19.5% 0.0

Example 4: Generation of ORF2 Variants which Synthesize an Altered Amount of CBGVA and/or 5-GDVA Compared to WT ORF2

The library of tripleton mutants described in Example 1, was screened for the ability to produce CBGVA and 5-GDVA using DVA as substrate and Geranyl pyrophosphate (GPP) as donor; and this enzymatic activity was compared to that of the WT ORF2. Table 5 provides the summary of the analysis performed on the enzymatic activity of the ORF2 triple mutants to produce CBGVA and 5-GDVA using DVA as substrate and Geranyl pyrophosphate (GPP) as donor. Table 11 lists the mutations within each of the tripleton mutants as well the nMol CBGVA, nMol of 5-GDVA, total prenylated products, % CBGVA products among prenylated products, % enzymatic activity, CBGVA production potential and %5-GDVA among total prenylated products of each of the ORF2 triple mutants.

TABLE 11 CBGVA CLONE nMol nMol 5- Total % % Production % ID Mutations CBGVA GDVA Products CBGVA Activity Potential 5-GOA G12 A17T_Q161W_A232S 15.44563535   1.780798893 17.22643424   89.66% 202.28%   1.81 10.3375943 A09 V49A_Q161S_V294A 13.27689212   2.418751236 15.69564336   84.59% 206.78%   1.75 15.4103351 H03 A17T_F213M_S214R 4.132448537 0.488308286 4.620756823 89.43% 67.42%  0.60 10.5677123 H02 A53Q_S177W_L219F 3.203799721 2.079716235 5.283515956 60.64% 62.04%  0.38 39.3623536 C05 A53Q_S177Y_Y288H 2.742222566 0.457534111 3.199756677 85.70% 42.15%  0.36 14.2990282 E09 A53T_M106E_Q161S 3.030297168 7.080383627 10.11068079   29.97% 118.73%   0.36 70.0287525 F08 A53T_N173D_S214R 2.498181396 1.595881946 4.094063342 61.02% 48.08%  0.29 38.9803922 D04 A53T_D166E_Q295W 1.938244854 2.469102235 4.407347088 43.98% 58.06%  0.26 56.0224141 H11 A108G_Q161S_G205M 2.059394831 2.31374827  4.3731431   47.09% 51.35%  0.24 52.9081308 D06 A53E_Q161A_V294N 1.045658567 3.092891042 4.138549609 25.27% 54.52%  0.14 74.733695 A10 V49S_K118Q_S177E 0.813341588 0.932123789 1.745465377 46.60% 23.00%  0.11 53.402594 G07 V49S_Y216A_V294N 0.898003405 0.146628436 1.044631841 85.96% 12.27%  0.11 14.0363744 C11 El 12D L219F_V294F 0.771126761 5.599490805 6.370617565 12.10% 83.93%  0.10 87.8955729 C06 Q161A_M162F_Q295A 0.737424547 0.764830927 1.502255475 49.09% 19.79%  0.10 50.9121744 H08 M106E_M162A_Y216A 0.768650364 0.224120032 0.992770395 77.42% 11.41%  0.09 22.575213 A04 L219F_V294N_Q295A 0.652569262 3.246737196 3.899306458 16.74% 51.37%  0.09 83.2644787 A05 A17T_C25V_E112G 0.648467729 6.486380265 7.134847994  9.09% 94.00%  0.09 90.9112608 C08 V49S_S214G_V294A 0.547012846 0.777733834 1.324746681 41.29% 17.45%  0.07 58.7081172 D12 A53T_E112D_G205M 0.548754063 11.45797904   12.0067331     4.57% 140.99%   0.06 95.4296139 H10 M162A_N173D_S214F 0.437741836 1.19524916  1.632990995 26.81% 19.18%  0.05 73.193861 H09 E112G_G205M_L298W 0.332843213 3.759738976 4.092582189  8.13% 48.06%  0.04 91.8671587 G05 A53T_K118N_S214F 0.321157716 0.749060708 1.070218423 30.01% 12.57%  0.04 69.991386 F09 Q38G_D166E_Q295A 0.295774648 0.495624876 0.791399524 37.37% 9.29% 0.03 62.6263804 D11 F123H_L174V_S177E 0.215059588 0.421939885 0.636999474 33.76% 7.48% 0.03 66.2386553 B09 C25V_F213M_Y216A 0.166228138 0.315379672 0.48160781  34.52% 6.34% 0.02 65.4847503 C01 V49S_M162A_Y283L 0.139142548 1.386320941 1.525463489  9.12% 20.10%  0.02 90.8786707 D07 K119A_S214G_L298A 0.128347005 0.796470239 0.924817244 13.88% 10.86%  0.02 86.1219062 G03 L219F_Y283L_L298W 0.1271475   1.259392921 1.386540421  9.17% 16.28%  0.01 90.8298742 H01 K119A_Q161A_R228Q 0.125715833 0.073017599 0.198733433 63.26% 2.33% 0.01 36.7414774 C12 N173D_F213M_V294F 0.109038848 6.163140202 6.27217905   1.74% 82.63%  0.01 98.2615476 D03 D227E_C230N_Q295W 0.079863798 0.046247775 0.126111574 63.33% 1.66% 0.01 36.6721103 A02 Q38G_E112D_F123H 0.078509519 0.064119043 0.142628562 55.04% 1.88% 0.01 44.9552616 G02 A53E_F213M_R228Q 0.063728525 3.011123196 3.074851721  2.07% 44.86%  0.01 97.9274277 A03 V49L_F123A_Y283L 0.079089924 0.065948191 0.145038115 54.53% 1.70% 0.01 45.4695586 G04 D227E_R228E_L298Q 0.064231543 0.496761914 0.560993457 11.45% 6.59% 0.01 88.5503935 A03 V49L_F123A_Y283L 0.054867668 0.61311054  0.667978207  8.21% 8.80% 0.01 91.7860093 B08 K118Q_L174V_R228Q 0.041363566 0.565651572 0.607015138  6.81% 8.00% 0.01 93.1857439 E10 E112D_K119A_N173D 0.041595728 0.173002768 0.214598497 19.38% 2.52% 0.00 80.6169527 F12 A17T_V49A_C230N 0.026234329 0.084017204 0.110251533 23.79% 1.29% 0.00 76.2050211 D09 K118N_C209G_R228Q 0.023951401 0.015300573 0.039251974 61.02% 0.46% 0.00 38.9803922 A08 C25V_A232S_V271E 0.016019192 0.027906862 0.043926054 36.47% 0.58% 0.00 63.5314565 D10 V49A_F123A_Y288H 0.015825724 0.010109749 0.025935472 61.02% 0.30% 0.00 38.9803922 E08 F123H_L274V_L298A 0.010021668 0.090493376 0.100515044  9.97% 1.69% 0.00 90.029683 D08 El 12D_K119A_N173D 0.009557344 0.066590864 0.076148208 12.55% 0.89% 0.00 87.449023 G11 S177W_Y288H_V294N 0.009479957 0.008305319 0.017785276 53.30% 0.21% 0.00 46.6977254 D01 K118Q_Q161W_S214F 0.007080947 0.458745304 0.465826251  1.52% 6.14% 0.00 98.4799167 H07 F123A_M162F_S214G 0.007080947 0.046099466 0.053180413 13.31% 0.62% 0.00 86.6850467 H06 V49L_E112D_G286E 0.006229686 0.006896381 0.013126067 47.46% 0.15% 0.00 52.5395857 H05 S177E_S214R_R228E 0.006152298 0.008503065 0.014655363 41.98% 0.17% 0.00 58.0201581 F10 K119D_Q161W_L298Q 0.006074911 0.032603322 0.038678233 15.71% 0.45% 0.00 84.2937215 A11 V49L_D166E_L274V 0.004527163 0.018316195 0.022843358 19.82% 0.30% 0.00 80.1817101 G08 F123W_M162F_C209G 0.005068875 0.015943247 0.021012122 24.12% 0.25% 0.00 75.8764258 B04 A53E_A108G_K118N 0.003714595 0.042193989 0.045908584  8.09% 0.60% 0.00 91.908713 C10 A53Q_L274V_Q295A 0.003675902 0.187685387 0.191361288  1.92% 2.52% 0.00 98.0790777 G10 V49A_Y121W_C230S 0.003985451 0.011073759 0.01505921  26.47% 0.18% 0.00 73.5347931 G09 M106E_G205L_C209G 0.003908064 0.011123196 0.015031259 26.00% 0.18% 0.00 74.0004235 G06 K118Q_F123A_R228E 0.003288965 0.027288906 0.030577871 10.76% 0.36% 0.00 89.2439714 H04 M162A_C209G_Y288H 0.003095496 0.014435436 0.017530932 17.66% 0.21% 0.00 82.3426613 C07 V49L_K119D_G205M 0.002515091 0.031491003 0.034006093  7.40% 0.45% 0.00 92.6040003 A07 G205L_R228E_C230N 0.001818604 0.101270516 0.10308912   1.76% 1.36% 0.00 98.2358915 C03 V49L_S214R_V271E 0.001625135 0.030205656 0.031830791  5.11% 0.42% 0.00 94.8944548 G08 F123W_M162F_C209G 0.00177991  0.035174016 0.036953926  4.82% 0.44% 0.00 95.1834341 B06 D166E_S177Y_S214F 0.001392973 0.030823611 0.032216584  4.32% 0.42% 0.00 95.6762231 B05 A53Q_Y121W_A232S 0.001392973 0.031688748 0.033081721  4.21% 0.44% 0.00 95.7892964 B02 V49A_S177Y_C209G 0.001083424 0.039351394 0.040434818  2.68% 0.53% 0.00 97.3205676 B10 M106E_Y121W_D166E 0.000812568 0.027807989 0.028620557  2.84% 0.38% 0.00 97.1608948 B11 V49S_K119D_F213M 0.000773874 0.028722563 0.029496437  2.62% 0.39% 0.00 97.3763814 A12 Y121W_S177Y_G286E 0.000464324 0.031589875 0.0320542    1.45% 0.42% 0.00 98.5514397 C09 A108G_K119D_L298A 0.000348243 0.03512458  0.035472823  0.98% 0.47% 0.00 99.0182814 C02 K118N_K119A_V271E 0.000116081 0.018711687 0.018827768  0.62% 0.25% 0.00 99.383458

The amount of CBGVA or 5-GDVA (in nMols) generated by each of the ORF2 triple mutant clones was measured using HPLC. FIG. 25 shows the total nMols of prenylated products generated using DVA as substrate and GPP as donor by each of the ORF2 triple mutants, and the proportion of CBGVA and 5-GDVA within the total prenylated products. An exemplary wild type ORF2 replicate is included in the graph for comparison purposes.

FIG. 26 shows the % CBGVA and %5-GDVA within the total prenylated products produced by each of the ORF2 mutant clones, using DVA as substrate and GPP as donor. In this graph, the mutant clones are ordered based on decreasing % CBGA (from left to right) they produce, with the %5-GDVA depicted in red. The black threshold line on the graph indicates the % CBGVA that is produced by the wild type enzyme.

FIG. 27 shows the % ORF2 enzymatic activity (using DVA as substrate and GPP as donor) of each of the mutant ORF2 clones relative to the wild type enzyme. % activity was calculated by dividing the nMols of total prenylated products produced by a mutant by the nMols of total prenylated products produced by the wild type control, and expressed as a percentage. The red threshold line represents the wild type Orf2% activity.

FIG. 28 shows the CBGVA production potential of each of the ORF2 mutant clones when using DVA as substrate and GPP as donor. CBGVA production potential (interchangeably referred to herein as CBGVA production quotient) represents the improvement in CBGVA production vs. the wild type enzyme. CBGVA production potential was calculated by multiplying the % CBGVA of the Total Products by the % Activity of each mutant. The red threshold line on the graph represents this wild type value.

While the CBGVA production potential analysis shown in FIG. 28 is useful to rank ORF2 mutant clones based on the amount of CBGVA produced, such an analysis would not differentiate between a mutant that made 100% CBGVA but was 20% as active as wildtype ORF2; or a mutant that made 10% CBGVA and was 200% as active as wild type ORF2. Therefore, a cluster analysis was employed by plotting the CBGVA Production Potential vs. %5-GDVA (FIG. 29). %5-GDVA was calculated in a similar manner as % CBGVA. We used the top 25 mutants ranked based on their CBGVA production potential for this analysis. High 5-GDVA producing mutants cluster together towards the right of the graph and high CBGVA producing mutants cluster towards the left of the graph.

Based on the analysis performed in FIG. 29, 24 mutants which cluster to the left of the graph were selected (Table 12). These clones were targeted for “breakdown” analysis.

TABLE 12 CBGVA Targeted Production Clone for Rank ID Mutations Breakdown  1 G12 A17T_Q161W_A232S YES  2 A09 V49A_Q161S_V294A YES  3 H03 A17T_F213M_S214R YES  4 H02 A53Q_S177W_L219F YES  5 C05 A53Q_S177Y_Y288H YES  6 E09 A53T_M106E_Q161S YES  7 F08 A53T_N173D_S214R YES  8 D04 A53T_D166E_Q295W YES  9 H11 A108G_Q1615_G205M YES 10 D06 A53E_Q161A_V294N YES 11 A10 V495_K118Q_S177E YES 12 G07 V495_Y216A_V294N YES 14 C06 Q161A_M162F_Q295A YES 15 H08 M106E_M162A_Y216A YES 16 A04 L219F_V294N_Q295A YES 18 C08 V495_S214G_V294A YES 20 H10 M162A_N173D_S214F YES 22 G05 A53T_K118N_S214F YES 23 F09 Q38G_D166E_Q295A YES 24 D11 F123H_L174V_S177E YES

For the singleton and doubleton mutants resulting from the breakdown of triple mutants—A09; H02; C05; E09; D04; H11; A04; G05; F09; and D11—the total amount of prenylated products (and the respective proportion of CBGVA and 5-GDVA); and % CBGVA within the prenylated products was calculated.

For the remaining triple mutants in Table 6, the breakdown of the triple mutants into singletons and doubletons; and the determination of the total amount of prenylated products and % CBGVA produced by these mutants will be determined.

FIGS. 30-39 depict the total amount of prenylated products and % CBGVA produced using DVA as substrate and GPP as donor for the mutants derived from A09 (FIG. 30); H02 (FIG. 31); C05 (FIG. 32); E09 (FIG. 33); D04 (FIG. 34); H11 (FIG. 35); A04 (FIG. 36); G05 (FIG. 37); F09 (FIG. 38); and D11 (FIG. 39). The % CBGVA for these clones, along with the mutations they carry, are listed in Table 13.

TABLE 13 RBP CLONE % ID Mutations CBGVA A09 V49A_Q161S_V294A  84.59% 022 V49A_Q161S  85.83% 023 V49A_V294A  71.18% 024 Q161S_V294A  47.59% 041 Q161S  51.78% 049 V294A  16.99% 051 V49A  64.92% H02 A53Q_S177W_L219F  60.64% 007.1 A53Q_S177W  62.28% 008 A53Q_L219F  11.13% 009 S177W_L219F  63.48% 032 A53Q  11.45% 039.2 L219F  17.68% 046 S177W  74.01% C05 A53Q_S177Y_Y288H  85.70% 019 A53Q_S177Y  17.32% 020 A53Q_Y288H  83.61% 021 S177Y_Y288H  88.73% 032 A53Q  11.45% 047.2 S177Y  25.03% 052 Y288H  86.99% E09 A53T_M106E_Q161S  29.97% 025 A53T_M106E  15.99% 026 A53T_Q161S  32.84% 027 M106E_Q161S  39.28% 033 A53T  8.75% 040 M106E  29.24% 041 Q161S  51.78% D04 A53T_D166E_Q295W  43.98% 016 A53T_D166E  5.02% 017 A53T_Q295W  70.34% 018 D166E_Q295W  63.59% 033 A53T  8.75% 034 D166E  13.49% 043 Q295W  78.32% H11 A108G_Q161S_G205M  47.09% 010 A108G_Q161S  42.42% 011 A108G_G205M  17.79% 012 Q161S_G205M  38.12% 031 A108G  18.18% 036 G205M  14.04% 041 Q161S  51.78% A04 L219F_V294N_Q295A  16.74% 004 L219F_V294N  13.81% 005.1 L219F_Q295A  20.37% 006 V294N_Q295A  14.19% 039.2 L219F  17.68% 042 Q295A  24.51% 050 V294N  14.42% G05 A53T_K118N_S214F  30.01% 028 A53T_K118N  6.24% 029.1 A53T_S214F  31.46% 030 K118N_S214F  44.77% 033 A53T  8.75% 037 K118N  17.50% 048 S214F  51.33% F09 Q38G_D166E_Q295A  37.37% 001 Q38G_D166E  14.60% 002 Q38G_Q295A  18.61% 003 D166E_Q295A  17.65% 034 D166E  13.49% 042 Q295A  24.51% 044 Q38G  17.66% D11 F123H_L174V_S177E  33.76% 013 F123H_L174V  14.04% 014 F123H_S177E  32.66% 015 L174V_S177E  86.04% 035 F123H  12.63% 045 S177E  88.33% 038 L174V  19.90% G12 A17T_Q161W_A232S  89.66% q423-1 A17T  13.71% EE09 Q161W  4.21% 424-1 A232S  80.92% C06 Q161A_M162F_Q295A  49.09% DD01 Q161A  26.80% 431-1 M162F  39.68% 042.3 Q295A  23.80% F08 A53T_N173D_S214R  61.02% 033 A53T  8.75% 427-4 N173D  16.18% BB05 S214R 100.00%

This analysis provided important insights into which positions on ORF2, when mutated, are likely to give rise to significant effects on the enzymatic activity of ORF2 in the reaction using DVA as substrate and GPP as donor. Based on this analysis, the following amino acid sites were selected for targeted amino acid site saturation mutagenesis—V49, Q161, 5177, Y288, M106, Q295, 5214, M162 and A232.

Site saturated mutants of Q295, Q161, 5214 and Y288, described in Example 1, were analyzed to determine the amount of total prenylated products they produce; their respective CBGVA production potential; and 5-GDVA production potential using DVA as substrate and GPP as donor. These results are depicted in FIG. 40 (Q295), FIG. 41 (Q161), FIG. 42 (S214) and FIG. 98 (Y288); and in Tables 14-17.

TABLE 14 Q295 site saturated mutants CBGVA 5-GDVA nMol nMol 5- Total % % Production % 5- Production Mutations CBGVA GDVA Products CBGVA Activity Potential GDVA Potential Q295D 1.29140226 9.345758355 10.63716061 12.14% 155.20% 0.19 87.86% 1.36 Q295Y 1.501276892 6.363975677 7.865252569 19.09% 114.76% 0.22 80.91% 0.93 Q295N 0.511492029 5.062710105 5.574202134 9.18% 60.35% 0.06 90.82% 0.55 Q295H 3.540705773 4.739840815 8.280546588 42.76% 89.65% 0.38 57.24% 0.51 Q295G 0.703722334 4.449401819 5.153124153 13.66% 55.79% 0.08 86.34% 0.48 Q295S 0.480420987 3.918108562 4.39852955 10.92% 47.62% 0.05 89.08% 0.42 Q295K 0.249922613 2.476591853 2.726514465 9.17% 39.78% 0.04 90.83% 0.36 Q295A 0.775344374 2.481832114 3.257176488 23.80% 35.27% 0.08 76.20% 0.27 Q295C 1.126799257 2.37638422 3.503183477 32.17% 37.93% 0.12 67.83% 0.26 Q295R 0.038925863 1.778425944 1.817351807 2.14% 19.68% 0.00 97.86% 0.19 Q295W 4.568410463 1.598897568 6.167308031 74.07% 66.77% 0.49 25.93% 0.17 Q295M 3.386047052 1.594695472 4.980742523 67.98% 53.93% 0.37 32.02% 0.17 Q295T 0.343174431 1.441393118 1.78456755 19.23% 19.32% 0.04 80.77% 0.16 Q295L 2.095728215 0.998467471 3.094195686 67.73% 33.50% 0.23 32.27% 0.11 Q295P 0.579322086 0.893439786 1.472761873 39.34% 15.95% 0.06 60.66% 0.10 Q295E 0.68298251 0.480324303 1.163306813 58.71% 12.60% 0.07 41.29% 0.05 Q295F 13.57351803 0.283839233 13.85735726 97.95% 150.03% 1.47 2.05% 0.03 Q295V 0.736921529 0.261963615 0.998885144 73.77% 10.81% 0.08 26.23% 0.03 Q295I 3.401176289 0.248071979 3.649248268 93.20% 39.51% 0.37 6.80% 0.03

TABLE 15 Q161 site saturated mutants CBGVA 5-GDVA nMol nMol 5- Total % % Production % 5- Production Mutations CBGVA GDVA Products CBGVA Activity potential GDVA Potential Q161C 0.342207089 10.68046767 11.02267476 3.10% 185.25% 0.06 96.90% 1.79495767 Q161M 0.526466491 10.36728792 10.89375441 4.83% 183.08% 0.09 95.17% 1.742324731 Q161T 2.700278595 7.140523037 9.840801632 27.44% 165.38% 0.45 72.56% 1.200035147 Q161L 0.836673889 6.451057939 7.287731829 11.48% 122.48% 0.14 88.52% 1.084163754 Q161F 3.890728989 6.157108958 10.04783795 38.72% 168.86% 0.65 61.28% 1.034762736 Q161I 0.501315586 6.070026696 6.571342281 7.63% 110.44% 0.08 92.37% 1.020127705 Q161S 4.812335552 4.916106387 9.728441939 49.47% 163.50% 0.81 50.53% 0.826200045 Q161N 0.992802972 4.474688551 5.467491522 18.16% 79.77% 0.14 81.84% 0.652878827 Q161A 1.775886086 4.850479533 6.626365619 26.80% 77.10% 0.21 73.20% 0.56439113 Q161W 0.193778053 4.411879573 4.605657626 4.21% 52.93% 0.02 95.79% 0.507033637 Q161V 0.594335242 3.318741349 3.913076591 15.19% 47.18% 0.07 84.81% 0.400147091 Q161G 0.999961306 2.683112517 3.683073824 27.15% 53.74% 0.15 72.85% 0.391479168 Q161P 0.78366352 2.170333202 2.953996721 26.53% 33.95% 0.09 73.47% 0.249424745 Q161R 9.435304132 0.931753016 10.36705715 91.01% 174.23% 1.59 8.99% 0.156590261 Q161E 1.672070887 1.24184299 2.913913877 57.38% 35.13% 0.20 42.62% 0.149731422 Q161D 1.211654543 1.262013051 2.473667594 48.98% 28.43% 0.14 51.02% 0.145036386 Q161K 5.035404736 0.710945224 5.746349961 87.63% 66.86% 0.59 12.37% 0.082724023 Q161Y 8.142121963 0.489148705 8.631270667 94.33% 145.06% 1.37 5.67% 0.082206252 Q161H 31.43685188 0 31.43685188 100.00% 365.79% 3.66 0.00% 0

TABLE 16 S214 site saturated mutants CBGVA 5-GDVA nMol nMol 5- Total % % Production % 5- Production Mutations CBGVA GDVA Products CBGVA Activity Potential GDVA Potential S214T 1.3722334 5.235391536 6.607624937 20.77% 0.964084621 0.200215528 79.23% 0.763869093 S214C 0.265206624 5.436770813 5.701977437 4.65% 0.758613666 0.03528414 95.35% 0.723329526 S214A 0.24686581 5.326280403 5.573146214 4.43% 0.671055324 0.029724793 95.57% 0.641330531 S214V 0.854859929 3.382539055 4.237398984 20.17% 0.618257125 0.124728222 79.83% 0.493528902 S214G 1.124864572 3.627545976 4.752410548 23.67% 0.561118545 0.132813099 76.33% 0.428305446 S214N 1.656013001 1.869166502 3.525179503 46.98% 0.514340838 0.241620353 53.02% 0.272720485 S214D 1.865500696 1.657010085 3.522510782 52.96% 0.513951458 0.272185626 47.04% 0.241765832 S214E 1.805254605 0.375568519 2.180823123 82.78% 0.318192702 0.263395428 17.22% 0.054797274 S214F 0.415609039 0.364890251 0.78049929 53.25% 0.113878643 0.060639381 46.75% 0.053239263 S214Q 1.803900325 0.430838442 2.234738767 80.72% 0.269082003 0.217205304 19.28% 0.051876699 S214I 0.482239591 0.348279612 0.830519204 58.06% 0.121176792 0.070361102 41.94% 0.05081569 S214P 0.015206624 0.291032233 0.306238857 4.97% 0.040743231 0.00202315 95.03% 0.038720081 S214K 1.887556106 0.314489816 2.202045922 85.72% 0.25622522 0.219631877 14.28% 0.036593343 S214M 0.227093329 0.106115286 0.333208615 68.15% 0.048616758 0.033134021 31.85% 0.015482736 S214W 0.016483516 0.099070595 0.115554112 14.26% 0.016859907 0.002405025 85.74% 0.014454882 S214Y 0.077619564 0.052995847 0.130615411 59.43% 0.019057424 0.011325072 40.57% 0.007732352 S214L 0.054171181 0.021628436 0.075799617 71.47% 0.011059533 0.007903839 28.53% 0.003155694 S214R 13.19528711 0 13.19528711 100.00% 1.925256578 1.925256578 0.00% 0 S214H 10.22125058 0 10.22125058 100.00% 1.491330181 1.491330181 0.00% 0

TABLE 17 Y288 site saturated mutants nMol nMol 5- Total % % CBGVA % 5- 5-GDVA Mutations CBGVA GDVA Products CBGVA Activity Production GDVA Prod Y288F 33.52313883 0.145837453 33.66897629 99.57% 405.95% 4.04 0.43% 0.02 Y288I 25.12084043 0.138421989 25.25926242 99.45% 304.56% 3.03 0.55% 0.02 Y288L 22.54945055 0.325439984 22.87489053 98.58% 275.81% 2.72 1.42% 0.04 Y288M 21.39599133 0.146035199 21.54202653 99.32% 259.74% 2.58 0.68% 0.02 Y288P 12.60462777 0.052674511 12.65730228 99.58% 152.61% 1.52 0.42% 0.01 Y288T 9.939676521 0.141487048 10.08116357 98.60% 121.55% 1.20 1.40% 0.02 Y288W 8.629972141 0.152264188 8.782236329 98.27% 105.89% 1.04 1.73% 0.02 Y288C 6.701865036 0 6.701865036 100.00% 80.81% 0.81 0.00% 0.00 Y288A 5.34870763 0 5.34870763 100.00% 64.49% 0.64 0.00% 0.00 Y288G 5.26087293 0.108587107 5.369460037 97.98% 64.74% 0.63 2.02% 0.01 Y288H 1.234058195 0.204419616 1.438477812 85.79% 17.34% 0.15 14.21% 0.02 Y288S 1.190102151 0.026522642 1.216624793 97.82% 14.67% 0.14 2.18% 0.00 Y288N 0.893437548 0.060806802 0.954244351 93.63% 11.49% 0.11 6.37% 0.01 Y288K 0.856485064 0.547137631 1.403622695 61.02% 16.92% 0.10 38.98% 0.07 Y288D 0.358651911 0.01977457 0.378426481 94.77% 4.56% 0.04 5.23% 0.00 Y288R 0.156786875 0.012878189 0.169665064 92.41% 2.05% 0.02 7.59% 0.00 Y288E 0.139684259 0.017401622 0.157085881 88.92% 1.89% 0.02 11.08% 0.00

In a similar manner, site saturated mutants of V49, 5177, and M106 will also be generated. Mutant ORF2 enzymatic function using DVA as substrate and GPP as donor for each of these site saturated mutants will be analyzed as described above.

From the results described above, multiple mutations of Q295, Q161, Y288 and 5214 that have significantly higher CBGVA production potential and/or the total amount of prenylated products, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using DVA as a substrate and GPP as donor, as compared to WT ORF2.

Finally, ORF2 stacking mutants that carry different novel combinations of the mutations that our analysis identified as being important for ORF2's enzymatic activity were analyzed to obtain the total amount of prenylated products produced by each of the stacking mutants (FIG. 43); % enzymatic activity (FIG. 44), % CBGVA produced (FIG. 45), and CBGVA production potential (FIG. 46). Table 18 provides a summary of the enzymatic function, using DVA as substrate and GPP as donor, for each of the stacking mutants.

The analysis of the stacking mutants shows that multiple stacking mutants have significantly higher % enzymatic activity, % CBGVA, and CBGVA production potential, compared to the WT ORF2, thereby indicating that the ORF2 stacking mutants disclosed herein have synergistically enhanced effects compared to the individual single mutants. Thus, the ORF2 stacking mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using DVA and GPP, as compared to WT ORF2.

For instance, ORF2 double mutants, A53T-S214R; Q161S-Q295L; Q161S-Q295F; S177W-Q295A; A53T-Q295F; and Q161S-S177W have synergistically enhanced CBGVA production potential and % activity as compared to either of the single mutants. See FIGS. 86-91.

More stacking mutants will be generated as described above, based on the planned breakdown analysis of triple mutants described above, and planned site saturation mutagenesis experiments described above. These stacking mutants will further be analyzed to determine their % enzymatic activity, % CBGVA, %5-GDVA and CBGVA production potential.

TABLE 18 CBGVA 5-GDVA nMol nMol 5- Total % % CBGVA Mutations (6.39) (6.458) CBGVA GDVA Products CBGVA Activity Production A53T_S214R 63.8414 24.70260022 0 24.70260022 100.00% 287.43% 2.9 Q161S_Q295L 54.3225 1.5682 21.01938554 0.387631007 21.40701655 98.19% 249.09% 2.4 S177W_Q295A 49.6105 19.19613837 0 19.19613837 100.00% 223.36% 2.2 Q161S_Q295F 46.2151 1.8605 17.88233246 0.459882341 18.3422148 97.49% 213.43% 2.1 A53T_Q295F 43.9523 2.8376 17.0067714 0.701403994 17.70817539 96.04% 206.05% 2.0 S214R_Q295F 35.9686 13.91758242 0 13.91758242 100.00% 161.94% 1.6 Q161S_S177W 32.4331 2.5717 12.54956663 0.6350678268 13.1852449 95.18% 153.42% 1.5 Q16S_S214R 29.2403 11.31415416 0 11.31415416 100.00% 131.65% 1.3 A53T_S177W 15.4625 8.8346 5.983013465 2.183755191 8.166768656 73.26% 95.03% 0.7 A53T_V294A_Q295W 14.5967 8.5727 5.648003405 2.119018193 7.767021598 72.72% 84.09% 0.6 A53T_Q161S_V294A_Q295W 13.4626 11.7614 5.209178146 2.907207831 8.116385977 64.18% 87.88% 0.6 A53T_Q295W 12.1532 7.1918 4.702522829 1.777684398 6.480207227 72.57% 70.16% 0.5 Q161S_V294A_Q295A 11.5893 6.1801 4.484329051 1.527610243 6.011939294 74.59% 65.09% 0.5 A53T_Q161S_V294N_Q295W 11.3653 13.5299 4.397655162 3.344349417 7.742004578 56.80% 83.82% 0.5 A53T_Q161S 10.4118 26.798 4.028710726 6.623986553 10.65269728 37.82% 123.95% 0.5 A53T_Q161S_Q295W 10.4226 5.6942 4.032889646 1.407504449 5.440394095 74.13% 58.90% 0.4 S177W_S214R 8.898 3.442965485 0 3.442965485 100.00% 40.06% 0.4 A53T_Q161S_V294A_Q295A 8.3752 9.5435 3.240674818 2.358982598 5.599657417 57.87% 60.63% 0.4 A53T_Q161S_V294N_Q295A 7.7662 7.1111 3.005030181 1.7577368 4.762766982 63.09% 51.57% 0.3 A53T_Q161S_Q295A 6.9677 7.6228 2.696060981 1.884219893 4.580280874 58.86% 49.59% 0.3 A53T_Q161S_V294A 5.7154 18.9083 2.211499768 4.673793751 6.885293519 32.12% 74.55% 0.2 Q161S_V294A_Q295W 5.3676 3.451 2.076923077 0.853025509 2.929948586 70.89% 31.72% 0.2 A53T_Q161S_V294N 4.6934 17.5207 1.816050147 4.330803836 6.146853983 29.54% 66.55% 0.2 V49A_S214R 3.7232 0.2083 1.440643863 0.051488036 1.4921319 96.55% 17.36% 0.2 A53T_V294A 2.2627 34.0135 0.875522365 8.407529167 9.283051532 9.43% 100.51% 0.1 A53T_V294A_Q295A 1.874 10.6083 0.72511995 2.622182124 3.347302074 21.66% 36.24% 0.1 A53T_Q295A 1.7119 12.918 0.662397462 3.193098675 3.855496137 17.18% 41.74% 0.1 V49A_Q295L 1.4388 1.2094 0.556724965 0.298942061 0.855667026 65.06% 9.96% 0.1

Example 5: Generation of ORF2 Variants with Improved Enzymatic Function Using DVA as Substrate and GPP as Donor

Four triple mutants (A09 carrying V49A_Q161S_V294A; E9 carrying A53T_M106E_Q161S; G12 carrying A17T_Q161W_A232S; and D12 carrying A53T_E112D_G205M) that had improved activity vs. the WT ORF2, based on FIG. 27 were targeted for “breakdown” analysis. For each parental clone targeted six unique mutants are generated (3 doubles and 3 singles).

The % enzymatic activity when using DVA as substrate and GPP as donor was calculated for each of the single and double mutants derived from the breakdown analysis of A09 and E09. FIGS. 47 and 48 depict the % activity for the mutants derived from the breakdown of A09 (FIG. 47); and E09 (FIG. 48) triple mutant clones.

In a similar fashion, breakdown analysis for the other two triple mutants—G12 and D12—will also be done; and the % activity for the mutants derived from the breakdown will be measured, as described above.

Based on the breakdown analysis of triple mutants A09 and E09: V49, Q161, A53 and Q295 were selected for performing site-saturated mutagenesis. % enzymatic activity (when using DVA as substrate and GPP as donor) of site-saturated mutants of A53, Q295 and Q161 described in Examples 1 and 2 was determined, and was compared to that of WT ORF2. These results are shown in FIG. 49 (A53), FIG. 50 (Q295), and FIG. 51 (Q161); and Tables 19, 20 and 21.

TABLE 19 Site saturated mutants of A53 nMol nMol Total % Mutations CBGVA 5-GDVA Products Activity A53L 2.143514936  9.210351987 11.35386692 190.81% A53K 1.275383068  8.751705557 10.02708862 168.52% A53V 2.534553475  7.935633775 10.47018725 152.77% A53M 1.582688438  8.177328456  9.760016894 142.40% A53Q 1.078548212  7.218162942  8.296711155 139.43% A53T 1.075065779 10.81335278 11.88841856 136.63% A53S 1.338492493  7.507118845  8.845611339 129.06% A53C 1.754449776  7.060955112  8.815404887 1.06289 A53I 2.838724656  6.020367807  8.859092463 101.81% A53N 0.540164061  4.653129326  5.193293387  75.77% A53R 0.705811794  5.140523037  5.846334831  67.19% A53W 0.3875948  5.026596797  5.414191596  62.22% A53G 0.675475933  3.400830532  4.076306464  59.48% A53D 0.480691843  2.19952541  2.680217254  45.04% A53Y 0.493151215  1.538090765  2.03124198  34.14% A53F 0.470863643  0.246860787  0.71772443  8.35% A53H 0.167311562  0.30047459  0.467786151  5.44% A53E 0.032154465  0.156837058  0.188991523  3.18% A53P 0.000580406  0.021925054  0.02250546 0.002714

TABLE 20 Site saturated mutants of Q295 CBGVA nMol nMol 5- Total % % Production Mutations CBGVA GDVA Products CBGVA Activity Potential Q295D 1.29140226 9.345758355 10.63716061 12.14% 155.20% 0.19 Q295F 13.57351803 0.283839233 13.85735726 97.95% 150.03% 1.47 Q295Y 1.501276892 6.363975677 7.865252569 19.09% 114.76% 0.22 Q295H 3.540705773 4.739840815 8.280546588 42.76% 89.65% 0.38 Q295W 4.568410463 1.598897568 6.167308031 74.07% 66.77% 0.49 Q295N 0.511492029 5.062710105 5.574202134 9.18% 60.35% 0.06 Q295G 0.703722334 4.449401819 5.153124153 13.66% 55.79% 0.08 Q295M 3.386047052 1.594695472 4.980742523 67.98% 53.93% 0.37 Q295S 0.480420987 3.918108562 4.39852955 10.92% 47.62% 0.05 Q295K 0.249922613 2.476591853 2.726514465 9.17% 39.78% 0.04 Q295I 3.401176289 0.248071979 3.649248268 93.20% 39.51% 0.37 Q295C 1.126799257 2.37638422 3.503183477 32.17% 37.93% 0.12 Q295A 0.775344374 2.481832114 3.257176488 23.80% 35.27% 0.08 Q295L 2.095728215 0.998467471 3.094195686 67.73% 33.50% 0.23 Q295R 0.038925863 1.778425944 1.817351807 2.14% 19.68% 0.00 Q295T 0.343174431 1.441393118 1.78456755 19.23% 19.32% 0.04 Q295P 0.579322086 0.893439786 1.472761873 39.34% 15.95% 0.06 Q295E 0.68298251 0.480324303 1.163306813 58.71% 12.60% 0.07 Q295V 0.736921529 0.261963615 0.998885144 73.77% 10.81% 0.08

TABLE 21 Site saturated mutants of Q161 nMol nMol 5- Total % % CBGVA Mutations CBGVA GDVA Products CBGVA Activity Production Q161H 31.43685188 0 31.43685188 100.00% 365.79% 3.66 Q161C 0.342207089 10.68046767 11.02267476 3.10% 185.25% 0.06 Q161M 0.526466491 10.36728792 10.89375441 4.83% 183.08% 0.09 Q161R 9.435304132 0.931753016 10.36705715 91.01% 174.23% 1.59 Q161F 3.890728989 6.157108958 10.04783795 38.72% 168.86% 0.65 Q161T 2.700278595 7.140523037 9.840801632 27.44% 165.38% 0.45 Q161S 4.812335552 4.916106387 9.728441939 49.47% 163.50% 0.81 Q161Y 8.142121963 0.489148705 8.631270667 94.33% 145.06% 1.37 Q161L 0.836673889 6.451057939 7.287731829 11.48% 122.48% 0.14 Q161I 0.501315586 6.070026696 6.571342281 7.63% 110.44% 0.08 Q161N 0.992802972 4.474688551 5.467491522 18.16% 79.77% 0.14 Q161A 1.775886086 4.850479533 6.626365619 26.80% 77.10% 0.21 Q161K 5.035404736 0.710945224 5.746349961 87.63% 66.86% 0.59 Q161G 0.999961306 2.683112517 3.683073824 27.15% 53.74% 0.15 Q161W 0.193778053 4.411879573 4.605657626 4.21% 52.93% 0.02 Q161V 0.594335242 3.318741349 3.913076591 15.19% 0.471807246 0.07 Q161E 1.672070887 1.24184299 2.913913877 57.38% 0.351336257 0.20 Q161P 0.78366352 2.170333202 2.953996721 26.53% 33.95% 0.09 Q161D 1.211654543 1.262013051 2.473667594 48.98% 28.43% 0.14

Similarly, site saturated mutants of V49 will also be generated; and the % activity of these mutants will be compared to that of the WT ORF2 in a reaction using DVA as substrate and GPP as donor.

From the results described above, multiple mutations of A53, Q295, and Q161 that have significantly higher % activity, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using DVA as a substrate and GPP as donor, as compared to WT ORF2.

Finally, ORF2 stacking mutant clones that carry different novel combinations of the mutations that our analysis identified as being important for ORF2's % enzymatic activity were analyzed to measure their % enzymatic activity, as shown in FIG. 52.

The analysis of the stacking mutants shows that multiple stacking mutants have significantly higher % enzymatic activity, compared to the WT ORF2, thereby indicating that the ORF2 stacking mutants disclosed herein have synergistically enhanced effects compared to the individual single mutants. Thus, the ORF2 stacking mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using DVA and GPP, as compared to WT ORF2.

Example 6: Generation of ORF2 Variants which Synthesize an Altered Amount of CBG and/or 5-GO Using Olivetol (Referred to Herein as “O”) and GPP, Compared to WT ORF2

The library of tripleton mutants was screened for the ability to produce CBG and 5-GO using O as substrate and Geranyl pyrophosphate (GPP) as donor; and this enzymatic activity was compared to that of the WT ORF2. Table 22 provides the summary of the analysis performed on the enzymatic activity of the ORF2 triple mutants to produce CBG and 5-GO using O as substrate and Geranyl pyrophosphate (GPP) as donor. Table 9 lists the mutations within each of the tripleton mutants as well the nMol CBG, nMol of 5-GO, total prenylated products, % CBG products among prenylated products, % enzymatic activity, CBG production potential and %5-GO among total prenylated products of each of the ORF2 triple mutants.

TABLE 22 CLONE CBG 5-GO Total nMol % CBG ID Mutations (7.095) (7.745) nMol CBG nMol 5-GO Products % CBG Activity Production % GOA E09 A53T_M106E_Q161S 3.1916 1.3656 13.04290969 3.762190754 16.80510044 77.61% 406.28% 3.15 22.39% C06 Q161A_M162F_Q295A 1.8681 0.787 7.634246016 2.168163535 9.802409551 77.88% 219.65% 1.71 22.12% D12 A53T_E112D_G205M 1.5896 1.2489 6.496117695 3.440685437 9.936803132 65.37% 240.23% 1.57 34.63% G12 A17T_Q161W_A232S 1.0678 0.4634 4.363710666 1.276654361 5.640365027 77.37% 136.36% 1.05 22.63% C11 E112D_L219F_V294F 0.8983 0.8995 3.671025746 2.478097967 6.149123713 59.70% 137.79% 0.82 40.30% A09 V49A_Q161S_V294A 0.703 0.8977 2.872905599 2.473139016 5.346044615 53.74% 119.79% 0.64 46.26% D06 A53E_Q161A_V294N 0.5894 0.7298 2.40866367 2.010579095 4.419242765 54.50% 99.03% 0.54 45.50% A04 L219F_V294N_Q295A 0.5735 0.4173 2.343686146 1.149650118 3.493336265 67.09% 78.28% 0.53 32.91% H11 A108G_Q161S_G205M 0.4996 0.4828 2.041683694 1.330100832 3.371784526 60.55% 81.52% 0.49 39.45% H02 A53Q_S177W_L219F 0.4683 0.4481 1.913771966 1.234503278 3.148275244 60.79% 76.11% 0.46 39.21% D04 A53T_D166E_Q295W 0.405 0.6084 1.655087863 1.676125406 3.331213269 49.68% 74.65% 0.37 50.32% H09 E112G_G205M_L298W 0.355 0.6902 1.450756028 1.901482175 3.352238203 43.28% 81.04% 0.35 56.72% C05 A53Q_S177Y_Y288H 0.371 0.703 1.516142215 1.936745826 3.452888041 43.91% 77.37% 0.34 56.09% F09 Q38G_D166E_Q295A 0.3134 0.3094 1.280751941 0.852388561 2.133140503 60.04% 51.57% 0.31 39.96% H10 M162A_N173D_S214F 0.3072 0.5322 1.255414794 1.466196485 2.721611278 46.13% 65.80% 0.30 53.87% H06 V49L_E112D_G286E 0.3004 0.3258 1.227625664 0.897570114 2.125195778 57.77% 51.38% 0.30 42.23% A05 A17T_C25V_E112G 0.3182 0.3457 1.300367797 0.952394071 2.252761869 57.72% 50.48% 0.29 42.28% D11 F123H_L174V_S177E 0.2886 0.3135 1.179403351 0.86368395 2.043087301 57.73% 49.39% 0.29 42.27% B08 K118Q_L174V_R228Q 0.3098 0.3717 1.266040049 1.024023362 2.290063411 55.28% 51.32% 0.28 44.72% A02 Q38G_E112D_F123H 0.3065 0.4033 1.252554148 1.1110805 2.363634648 52.99% 52.96% 0.28 47.01% G05 A53T_K118N_S214F 0.2765 0.3188 1.129955047 0.878285305 2.008240352 56.27% 48.55% 0.27 43.73% B10 M106E_Y121W_D166E 0.2878 0.3451 1.176134042 0.950741088 2.126875129 55.30% 47.66% 0.26 44.70% H05 S177E_S214R_R228E 0.2652 0.3543 1.083776052 0.976086837 2.059862889 52.61% 49.80% 0.26 47.39% C12 N173D_F213M_V294F 0.2854 0.6328 1.166326114 1.743346741 2.909672854 40.08% 65.20% 0.26 59.92% B09 C25V_F213M_Y216A 0.2775 0.3398 1.134041684 0.936139732 2.070181416 54.78% 46.39% 0.25 45.22% D01 K118Q_Q161W_S214F 0.2761 0.3493 1.128320392 0.962311973 2.090632365 53.97% 46.85% 0.25 46.03% C02 K118N_ K119A_V271E 0.2744 0.3159 1.12137311 0.870295884 1.991668994 56.30% 44.63% 0.25 43.70% B06 D166E_S177Y_S214F 0.2696 0.3306 1.101757254 0.910793983 2.012551237 54.74% 45.10% 0.25 45.26% B05 A53Q_Y121W_A232S 0.2661 0.3326 1.087454025 0.916303929 2.003757954 54.27% 44.90% 0.24 45.73% G03 L219F_Y283L_L298W 0.2448 0.4232 1.000408664 1.165904458 2.166313121 46.18% 52.37% 0.24 53.82% H01 K119A_Q161A_R228Q 0.24 0.3273 0.980792808 0.901702573 1.882495381 52.10% 45.51% 0.24 47.90% G09 M106E_G205L_C209G 0.2391 0.323 0.977114834 0.88985619 1.866971025 52.34% 45.14% 0.24 47.66% C03 V49L_S214R_V271E 0.2545 0.3185 1.04004904 0.877458813 1.917507853 54.24% 42.97% 0.23 45.76% G06 K118Q_F123A_R228E 0.2329 0.3136 0.951777687 0.863959447 1.815737134 52.42% 43.90% 0.23 47.58% A12 Y121W_S177Y_G286E 0.2499 0.3016 1.021250511 0.830899774 1.852150285 55.14% 41.50% 0.23 44.86% E10 E112D_K119A_N173D 0.2314 0.2803 0.945647732 0.772218855 1.717866587 55.05% 41.53% 0.23 44.95% G11 S177W_Y288H_V294N 0.2266 0.3002 0.926031876 0.827042812 1.753074688 52.82% 42.38% 0.22 47.18% B04 A53E_A108G_K118N 0.2397 0.2981 0.979566817 0.82125737 1.800824186 54.40% 40.35% 0.22 45.60% G10 V49A_Y121W_C230S 0.2207 0.299 0.901920719 0.823736845 1.725657564 52.27% 41.72% 0.22 47.73% F08 A53T_N173D_S214R 0.2207 0.2818 0.901920719 0.776351314 1.678272033 53.74% 40.57% 0.22 46.26% G07 V49S_Y216A_V294N 0.2206 0.3124 0.901512056 0.86065348 1.762165535 51.16% 42.60% 0.22 48.84% H07 F123A_M162F_S214G 0.2201 0.3228 0.899468737 0.889305196 1.788773933 50.28% 43.25% 0.22 49.72% C07 V49L_K119D_G205M 0.2333 0.3044 0.953412342 0.838613698 1.792026039 53.20% 40.16% 0.21 46.80% F12 A17T_V49A_C230N 0.2159 0.2812 0.882304863 0.77469833 1.657003194 53.25% 40.06% 0.21 46.75% D03 D227E_C230N_Q295W 0.2291 0.2973 0.936248468 0.819053391 1.755301859 53.34% 39.33% 0.21 46.66% C10 A53Q_L274V_Q295A 0.2286 0.298 0.934205149 0.820981872 1.755187021 53.23% 39.33% 0.21 46.77% C08 V49S_S214G_V294A 0.2284 0.4829 0.933387822 1.330376329 2.263764151 41.23% 50.73% 0.21 58.77% G02 A53E_F213M_R228Q 0.2077 0.302 0.848794442 0.832001763 1.680796205 50.50% 40.63% 0.21 49.50% B11 V49S_K119D_F213M 0.2217 0.2841 0.906007356 0.782687751 1.688695107 53.65% 37.84% 0.20 46.35% F10 K119D_Q161W_L298Q 0.2054 0.2715 0.839395178 0.747975095 1.587370273 52.88% 38.38% 0.20 47.12% C01 V49S_M162A_Y283L 0.2213 0.7384 0.904372701 2.034271861 2.938644562 30.78% 65.85% 0.20 69.22% B02 V49A_S177Y_C209G 0.2202 0.2682 0.899877401 0.738883685 1.638761086 54.91% 36.72% 0.20 45.09% A11 V49L_D166E_L274V 0.2202 0.2631 0.899877401 0.724833324 1.624710725 55.39% 36.41% 0.20 44.61% D09 K118N_C209G_R228Q 0.2002 0.2477 0.818144667 0.682406744 1.500551411 54.52% 36.28% 0.20 45.48% G04 D227E_R228E_L298Q 0.1989 0.2764 0.812832039 0.761474461 1.574306501 51.63% 38.06% 0.20 48.37% A10 V49S_K118Q_S177E 0.2141 0.2994 0.874948917 0.824838834 1.699787751 51.47% 38.09% 0.20 48.53% B12 A17T_F123W_L298A 0.2115 0.2931 0.864323662 0.807482506 1.671806168 51.70% 37.46% 0.19 48.30% C09 A108G_K119D_L298A 0.211 0.2503 0.862280343 0.689569673 1.551850017 55.56% 34.77% 0.19 44.44% H04 M162A_C209G_Y288H 0.1947 0.2801 0.795668165 0.77166786 1.567336026 50.77% 37.89% 0.19 49.23% D08 E112D_K119A_N173D 0.1903 0.2403 0.777686964 0.662019946 1.43970691 54.02% 34.81% 0.19 45.98% A03 V49L_F123A_Y283L 0.1942 0.2095 0.793624847 0.577166786 1.370791633 57.90% 30.72% 0.18 42.10% A07 G205L_R228E_C230N 0.194 0.2399 0.792807519 0.660917957 1.453725476 54.54% 32.57% 0.18 45.46% A08 C25V_A232S_V271E 0.1891 0.2273 0.772783 0.626205301 1.3989883 55.24% 31.35% 0.17 44.76% D07 K119A_S214G_L298A 0.1708 0.2959 0.697997548 0.81519643 1.513193978 46.13% 36.58% 0.17 53.87% D10 V49A_F123A_Y288H 0.136 0.1827 0.555782591 0.503333517 1.059116108 52.48% 25.61% 0.13 47.52%

The amount of CBG or 5-GO (in nMols) generated by each of the ORF2 triple mutant clones was measured using HPLC. FIG. 53 shows the total nMols of prenylated products generated using O as substrate and GPP as donor by each of the ORF2 mutants, and the proportion of CBG and 5-GO within the total prenylated products. An exemplary wild type ORF2 replicate is included in the graph for comparison purposes.

FIG. 54 shows the % CBG and %5-GO within the total prenylated products produced by each of the ORF2 triple mutant clones using O as substrate and GPP as donor. In this graph, the mutant clones are ordered based on decreasing % CBG (from left to right) they produce, with the % GO depicted in red. The black dashed line on the graph indicates the % CBG that is produced by the wild type enzyme.

FIG. 55 shows the ORF2 enzymatic activity (using O as substrate and GPP as donor) of each of the triple mutant ORF2 clones relative to the wild type enzyme. % activity was calculated by dividing the nMols of total prenylated products produced by a mutant by the nMols of total prenylated products produced by the wild type control, and expressed as a percentage. The red threshold line is the wild type Orf2% activity.

FIG. 56 shows the CBG production potential of each of the ORF2 triple mutant clones when using O as substrate and GPP as donor. CBG production potential (interchangeably referred to herein as CBG production quotient) represents the improvement in CBG production vs. the wild type enzyme. CBG production potential was calculated by multiplying the % CBG of the Total Products by the % Activity of each mutant.

While the CBG production potential analysis shown in FIG. 56 is useful to rank ORF2 mutant clones based on the amount of CBG produced, such an analysis would not differentiate between a mutant that made 100% CBG but was 20% as active as wild type ORF2; or a mutant that made 10% CBG and was 200% as active as wild type ORF2. Therefore, we employed a cluster analysis by plotting the CBG Production Potential vs. %5-GO (FIG. 57). %5-GO was calculated in a similar manner as % CBG. We used the top 25 mutants ranked based on their CBG production potential for this analysis. High 5-GO producing mutants cluster together towards the right of the graph and high CBG producing mutants cluster towards the left of the graph.

Based on the analysis performed in FIG. 57, 19 mutants which cluster to the left of the graph were selected for “breakdown” analysis (Table 23). For each parental clone targeted six unique mutants are generated (3 doubles and 3 singles).

TABLE 23 CBG Production Clone Rank ID Mutations  1 E09 A53T_M106E_Q161S  2 C06 Q161A_M162F_Q295A  3 D12 A53T_E112D_G205M  4 G12 A17T_Q161W_A232S  5 C11 E112D_L219F_V294F  6 A09 V49A_Q161S_V294A  7 D06 A53E_Q161A_V294N  8 A04 L219F_V294N_Q295A  9 H11 A108G_Q161S_G205M 10 H02 A53Q_S177W_L219F 11 D04 A53T_D166E_Q295W 13 C05 A53Q_S177Y_Y288H 14 F09 Q38G_D166E_Q295A 16 H06 V49L_E112D_G286E 17 A05 A17T_C25V_E112G 18 D11 F123H_L174V_S177E 19 B08 K118Q_L174V_R228Q 20 A02 Q38G_E112D_F123H 21 G05 A53T_K118N_S214F

For the singleton and doubleton mutants resulting from the breakdown of triple mutants—E09; A09; A04; H11; H02; D04; C05; F09; D011; and G05—the total amount of prenylated products (and the respective proportion of CBG and 5-GO); and % CBG within the prenylated products was calculated. FIGS. 58-67 depict the total amount of prenylated products and % CBG produced using O as substrate and GPP as donor by the mutants derived from E09 (FIG. 58); A09 (FIG. 59); A04 (FIG. 60); H11 (FIG. 61); H02 (FIG. 62); D04 (FIG. 63); C05 (FIG. 64); F09 (FIG. 65); D011 (FIG. 66); and G05 (FIG. 67).

The breakdown analysis of the remaining triple mutants listed in Table 23 will be performed in a similar manner as described above; and the total amount of prenylated products and % CBG produced using O as substrate and GPP as donor by the mutants derived from this breakdown will be measured.

The breakdown analysis of triple mutants—E09; A09; A04; H11; H02; D04; C05; F09; D011; and G05—provided important insights into which positions on ORF2, when mutated, are likely to give rise to significant effects on the enzymatic activity of ORF2 in the reaction using Olivetol (O) as substrate and Geranyl pyrophosphate (GPP) as donor. Based on this analysis, the following amino acid sites were selected for targeted amino acid site saturation mutagenesis—Q161, Q295, 5214, V294 M106, L174, A232, Y288 and M162. Site saturated mutagenesis was done for Q295, Q161, 5214 and Y288 by replacing the wild type residue with each of the other 19 standard amino acids. The amount of total prenylated products produced; CBG production potential; and 5-GO production potential were measured for Q295, Q161, 5214 and Y288 site saturated mutants, as depicted in FIGS. 68-73 and 99; and Tables 25-28.

TABLE 24 RBP CLONE ID Mutations % CBG A09 V49A_Q161S_V294A 53.74% 022 V49A_Q161S 50.81% 023 V49A_V294A 49.55% 024 Q161S_V294A 78.91% 041 Q161S 74.22% 049 V294A 69.60% 051 V49A 50.74% H02 A53Q_S177W_L219F 60.79% 007.1 A53Q_S177W 66.50% 008 A53Q_L219F 59.04% 009 S177W_L219F 64.31% 032 A53Q 61.21% 039.2 L219F 60.36% 046 S177W 66.96% C05 A53Q_S177Y_Y288H 43.91% 019 A53Q_S177Y 55.17% 020 A53Q_Y288H 34.48% 021 S177Y_Y288H 50.77% 032 A53Q 61.21% 047.2 S177Y 58.45% 052 Y288H 47.67% E09 A53T_M106E_Q161S 77.61% 025 A53T_M106E 66.34% 026 A53T_Q161S 77.30% 027 M106E_Q161S 70.34% 033 A53T 68.57% 040 M106E 63.55% 041 Q161S 74.22% D04 A53T_D166E_Q295W 49.68% 016 A53T_D166E 57.26% 017 A53T_Q295W 61.37% 018 D166E_Q295W 51.62% 033 A53T 68.57% 034 D166E 58.61% 043 Q295W 62.63% H11 A108G_Q161S_G205M 60.55% 010 A108G_Q161S 62.73% 011 A108G_G205M 56.30% 012 Q161S_G205M 73.18% 031 A108G 54.52% 036 G205M 66.08% 041 Q161S 74.22% A04 L219F_V294N_Q295A 67.09% 004 L219F_V294N 65.97% 005.1 L219F_Q295A 68.82% 006 V294N_Q295A 71.52% 039.2 L219F 60.36% 042 Q295A 78.68% 050 V294N 69.86% G05 A53T_K118N_S214F 56.27% 028 A53T_K118N 49.61% 029.1 A53T_S214F 86.94% 030 K118N_S214F 56.78% 033 A53T 68.57% 037 K118N 54.10% 048 S214F 83.66% F09 Q38G_D166E_Q295A 60.04% 001 Q38G_D166E 56.62% 002 Q38G_Q295A 64.68% 003 D166E_Q295A 67.90% 034 D166E 58.61% 042 Q295A 78.68% 044 Q38G 61.84% D11 F123H_L174V_S177E 57.73% 013 F123H_L174V 52.69% 014 F123H_S177E 62.24% 015 L174V_S177E 64.87% 035 F123H 52.03% 045 S177E 65.38% 038 L174V 77.09% G12 A17T_Q161W_A232S 77.37% q423-1 A17T 68.98% EE09 Q161W 80.71% q424-5 A232S 78.59% C06 Q161A_M162F_Q295A 77.88% DD01 Q161A 61.26% 431-1 M162F 80.78% 042 Q295A 76.50%

TABLE 25 Q295 site saturated mutants 5-GO Total nMol CBG % 5- Production Mutations nMol CBG nMol 5-GO Products % CBG % Activity Production GO Potential Q295H 26.97874949 8.154443771 35.13319326 76.79% 538.04% 4.13 23.21% 1.25 Q295W 4.693502248 2.936800926 7.630303173 61.51% 116.85% 0.72 38.49% 0.45 Q295F 7.742541888 2.762962147 10.50550403 73.70% 160.88% 1.19 26.30% 0.42 Q295D 2.895790764 1.784120337 4.679911101 61.88% 104.13% 0.64 38.12% 0.40 Q295Y 2.872496935 1.689349275 4.56184621 62.97% 101.50% 0.64 37.03% 0.38 Q295M 9.265631385 2.323819494 11.58945088 79.95% 177.48% 1.42 20.05% 0.36 Q295G 8.638741316 1.972009477 10.61075079 81.41% 162.50% 1.32 18.59% 0.30 Q295C 4.541070699 1.682737341 6.22380804 72.96% 95.31% 0.70 27.04% 0.26 Q295K 1.421332244 1.151578599 2.572910843 55.24% 57.25% 0.32 44.76% 0.26 Q295A 5.303228443 1.62929087 6.932519313 76.50% 106.17% 0.81 23.50% 0.25 Q295E 1.424192889 1.546917186 2.971110075 47.93% 45.50% 0.22 52.07% 0.24 Q295N 2.542705353 1.496225687 4.038931041 62.95% 61.85% 0.39 37.05% 0.23 Q295L 3.336738864 1.470879938 4.807618802 69.41% 73.63% 0.51 30.59% 0.23 Q295S 2.729055987 1.451044135 4.180100122 65.29% 64.02% 0.42 34.71% 0.22 Q295T 2.208418472 1.404209598 3.61262807 61.13% 55.32% 0.34 38.87% 0.22 Q295I 1.582345729 1.128712326 2.711058055 58.37% 41.52% 0.24 41.63% 0.17 Q295V 1.653044544 1.101162598 2.754207143 60.02% 42.18% 0.25 39.98% 0.17 Q295P 1.404168369 0.95652653 2.3606949 59.48% 36.15% 0.22 40.52% 0.15 Q295R 1.035962403 0.816573916 1.852536319 55.92% 28.37% 0.16 44.08% 0.13

TABLE 26 Q161 site saturated mutants 5-GO Total nMol CBG Production Mutations nMol CBG nMol 5-GO Products % CBG % Activity Production % 5-GO Potential Q161L 21.77482632 2.927158521 24.70198484 88.15% 877.78% 7.74 11.85% 1.04 Q161Y 22.34164283 2.522728525 24.86437135 89.85% 883.55% 7.94 10.15% 0.90 Q161F 29.53739273 2.514739104 32.05213183 92.15% 1138.97% 10.50 7.85% 0.89 Q161I 13.8998774 2.498209268 16.39808667 84.77% 582.70% 4.94 15.23% 0.89 Q161C 7.722108705 2.393244807 10.11535351 76.34% 359.45% 2.74 23.66% 0.85 Q161M 14.18716796 1.838944294 16.02611226 88.53% 569.49% 5.04 11.47% 0.65 Q161T 3.827135268 1.707256598 5.534391866 69.15% 196.66% 1.36 30.85% 0.61 Q161H 23.62729873 1.806711114 25.43400985 92.90% 747.62% 6.95 7.10% 0.53 Q161S 3.836534532 1.387679762 5.224214294 73.44% 185.64% 1.36 26.56% 0.49 Q161R 2.120147119 1.386026778 3.506173897 60.47% 124.59% 0.75 39.53% 0.49 Q161G 4.908868002 2.01416056 6.923028561 70.91% 154.03% 1.09 29.09% 0.45 Q161N 3.405803024 1.832883354 5.238686379 65.01% 116.56% 0.76 34.99% 0.41 Q161D 4.249693502 1.342222712 5.591916214 76.00% 164.37% 1.25 24.00% 0.39 Q161A 1.49448304 0.944955645 2.439438685 61.26% 71.71% 0.44 38.74% 0.28 Q161W 3.075194115 0.734751226 3.809945341 80.71% 111.99% 0.90 19.29% 0.22 Q161K 0.852472415 0.651826547 1.504298962 56.67% 44.22% 0.25 43.33% 0.19 Q161P 0.434818145 0.281558213 0.716376357 60.70% 21.06% 0.13 39.30% 0.08

TABLE 27 S214 site saturated mutants CBG 5-GO Total nMol Production Production Mutations nMol CBG nMol 5-GO Products % CBG % Activity potential % 5-GO Potential S214E 17.95218635 1.994600253 19.9467866 90.00% 443.81% 3.99 10.00% 0.44 S214A 0.523089497 0.539974654 1.063064152 49.21% 0.8036911 0.40 0.507942 0.41 S214I 4.800980793 1.774477933 6.575458725 73.01% 146.30% 1.07 26.99% 0.39 S214T 2.703310176 1.657391592 4.360701768 61.99% 97.02% 0.60 38.01% 0.37 S214F 7.143849612 1.589343765 8.733193377 81.80% 194.31% 1.59 18.20% 0.35 S214M 4.120147119 1.558763568 5.678910687 72.55% 126.35% 0.92 27.45% 0.35 S214L 4.30404577 1.502286627 5.806332398 74.13% 129.19% 0.96 25.87% 0.33 S214G 0.209235799 1.126783845 1.336019644 15.66% 0.3912208 0.06 0.843389 0.33 S214N 7.877400899 1.45352361 9.330924509 84.42% 207.61% 1.75 15.58% 0.32 S214V 2.365753984 1.443054714 3.808808698 62.11% 84.74% 0.53 37.89% 0.32 S214C 0.537801389 0.420684335 0.958485725 56.11% 0.6153359 0.35 0.438905 0.27 S214D 2.427870862 1.186566753 3.614437615 67.17% 80.42% 0.54 32.83% 0.26 S214Y 1.990192072 1.103366577 3.093558649 64.33% 68.83% 0.44 35.67% 0.25 S214H 30.08377605 1.054052565 31.13782862 96.61% 692.81% 6.69 3.39% 0.23 S214W 1.735594606 1.049093614 2.78468822 62.33% 61.96% 0.39 37.67% 0.23 S214R 1.420514916 0.974158356 2.394673272 59.32% 53.28% 0.32 40.68% 0.22 S214Q 37.24560687 0.955975536 38.2015824 97.50% 849.97% 8.29 0.025025 0.21 S214K 1.095218635 0.475508292 1.570726928 69.73% 34.95% 0.24 30.27% 0.11 S214P 0.102983245 0.107719434 0.210702678 48.88% 0.1352685 0.07 0.511239 0.07

TABLE 28 Y288 site saturated mutants Total nMol CBG % 5- 5-GOA Mutations nMol CBG nMol 5-GO Products % CBG % Activity Production GOA Production Y288F 16.59256232 2.590225357 19.18278768 86.50% 561.72% 4.86 13.50% 0.75848 Y288L 13.88516551 1.489338256 15.37450376 90.31% 450.20% 4.07 9.69% 0.43612 Y288I 9.454025337 1.173342884 10.62736822 88.96% 311.20% 2.77 11.04% 0.34358 Y288M 7.780956273 1.176924348 8.957880621 86.86% 262.31% 2.28 13.14% 0.34463 Y288T 5.373518594 0.684059728 6.057578322 88.71% 177.38% 1.57 11.29% 0.20031 Y288C 5.008990601 0.566146895 5.575137496 89.85% 163.25% 1.47 10.15% 0.16578 Y288A 4.105435227 0.304148989 4.409584216 93.10% 129.12% 1.20 6.90% 0.08906 Y288W 2.646505926 0.507741473 3.154247399 83.90% 92.36% 0.77 16.10% 0.14868 Y288P 5.30731508 0.655683509 5.962998588 89.00% 174.61% 0.40 11.00% 0.192 Y288N 0.82958725 0.542729627 1.372316877 60.45% 40.18% 0.24 39.55% 0.15893 Y288S 0.549243972 0.158135434 0.707379407 77.64% 20.71% 0.16 22.36% 0.04631 Y288G 0.398038414 0.08788363 0.485922044 81.91% 14.23% 0.12 18.09% 0.02573 Y288H 0.305271761 0.648245082 0.953516844 32.02% 27.92% 0.09 67.98% 0.18982 Y288K 0.136493666 0.107994931 0.244488597 55.83% 7.16% 0.04 44.17% 0.03162 Y288D 0.097261953 0.073557772 0.170819725 56.94% 5.00% 0.03 43.06% 0.02154 Y288E 0.073968124 0.076312745 0.150280869 49.22% 4.40% 0.02 50.78% 0.02235 Y288R 0.035553739 0.013223869 0.048777608 72.89% 1.43% 0.01 27.11% 0.00387

Similarly, site saturated mutagenesis will also be completed for M106, and V294; and the amount of total prenylated products produced; CBG production potential; and 5-GO production potential will be measured for each of these site saturated mutants.

From the results described above, multiple mutations of Q295, Q161 and 5214 that have significantly higher CBG or 5-GO production potential; and/or higher amount of prenylated products, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using O as a substrate and GPP as donor, as compared to WT ORF2.

Finally, ORF2 stacking mutants, which carry different novel combinations of the mutations that our analysis identified as being important for ORF2's enzymatic activity were analyzed to determine the total amount of prenylated products produced by each of the stacking mutants (FIG. 74); % enzymatic activity (FIG. 75); % CBG produced (FIG. 76); and CBG production potential (FIG. 77). Table 29 provides a summary of the enzymatic function, using O as substrate and GPP as donor, for each of the stacking mutants. The analysis of the stacking mutants shows that multiple stacking mutants have significantly higher % enzymatic activity, % CBG, and CBG production potential, compared to the WT ORF2, thereby indicating that the ORF2 stacking mutants disclosed herein have synergistically enhanced effects compared to the individual single mutants. Thus, the ORF2 stacking mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using O and GPP, as compared to WT ORF2.

For instance, ORF2 double mutants, Q161S-Q295L; A53T-Q161S; A53 T-V294A; Q161S-Q295F; and A53T-Q295F have synergistically enhanced CBGVA production potential and % activity as compared to either of the single mutants. See FIGS. 92-96.

In the future, more stacking mutants will be generated as described above, based on the breakdown analysis of remaining triple mutants listed in Table 10, and planned site saturation mutagenesis experiments described above. These stacking mutants will further be analyzed to determine their % enzymatic activity, % CBG, %5-GO and CBG production potential.

TABLE 29 CBG 5GO Total nMol CBG Mutations (7.095) (7.745) nMol CBG nMol 5-GO Products % CBG % Activity Production Q161S_Q295L 3.2538 1.0628 13.29709849 2.927985013 16.2250835 81.95% 628.43% 5.15 A53T_Q161S 3.0213 1.1637 12.34695546 3.205961761 15.55291722 79.39% 602.39% 4.78 A53T_Q161S_V294A_Q295A 6.8655 1.0392 28.05680425 2.862967657 30.91977191 90.74% 473.51% 4.30 Q161S_Q295F 2.6242 0.9004 10.72415202 2.480577442 13.20472947 81.21% 511.44% 4.15 A53T_Q161S_Q295A 6.5383 1.0823 26.71965672 2.981706981 29.7013637 89.96% 454.86% 4.09 A53T_Q295F 2.3515 0.773 9.609726195 2.129593917 11.73932011 81.86% 454.69% 3.72 A53T_Q161S_V294N_Q295A 5.4091 1.0492 22.10502656 2.890517384 24.99554395 88.44% 382.79% 3.39 A53T_Q161S_V294A 5.3751 1.7353 21.96608092 4.780704171 26.74678509 82.13% 409.61% 3.36 Q161S_V294A_Q295A 5.1846 1.1046 21.18757662 3.043142873 24.2307195 87.44% 371.08% 3.24 A53T_Q161S_V294N 4.8641 1.667 19.87780956 4.592539534 24.4703491 81.23% 374.75% 3.04 A53T_V294A 4.3154 2.3259 17.63547201 6.407791063 24.04326307 73.35% 368.21% 2.70 A53T_V294A_Q295A 4.2878 1.2019 17.52268083 3.311201719 20.83388255 84.11% 319.06% 2.68 A53T_Q161S_Q295W 4.2451 1.5899 17.34818145 4.380131137 21.72831258 79.84% 332.75% 2.66 A53T_Q161S_V294N_Q295W 4.1445 1.2834 16.93706579 3.535731996 20.47279779 82.73% 313.53% 2.59 A53T_Q161S_V294A_Q295W 4.1157 1.3136 16.81937066 3.618932173 20.43830283 82.29% 313.00% 2.58 Q161S_V294A_Q295W 2.6247 1.1964 10.72619534 3.296049369 14.02224471 76.49% 214.74% 1.64 A53T_Q295A 2.4689 0.8374 10.08949734 2.307014161 12.3965115 81.39% 189.84% 1.55 A53T_S177W 0.9678 0.4316 3.955046996 1.189046228 5.144093225 76.89% 199.24% 1.53 A53T_V294A_Q295W 2.1217 1.2914 8.670617082 3.557771778 12.22838886 70.91% 187.27% 1.33 A53T_Q295W 2.0002 1.6157 8.174090723 4.451209433 12.62530016 64.74% 193.35% 1.25 S177W_Q295A 0.694 0.4575 2.836125868 1.260400022 4.09652589 69.23% 158.67% 1.10 Q161S_S177W 0.5912 0.4139 2.416019616 1.140283211 3.556302827 67.94% 137.74% 0.94 S214R_Q295F 0.371 0.309 1.516142215 0.851286572 2.367428787 64.04% 91.69% 0.59 A53T_S214R 0.3473 0.2767 1.419288925 0.762300953 2.181589878 65.06% 84.50% 0.55 Q16S_S214R 0.2947 0.2578 1.204331835 0.710231969 1.914563804 62.90% 74.15% 0.47 V49A_Q295L 0.2342 0.2992 0.957090315 0.82428784 1.781378154 53.73% 69.00% 0.37 V49A_S214R 0.2154 0.2196 0.880261545 0.604992011 1.485253555 59.27% 57.53% 0.34 S177W_S214R 0.1776 0.2114 0.725786678 0.582401234 1.308187912 55.48% 50.67% 0.28

Example 7: Generation of ORF2 Variants with Improved Enzymatic Function Using O as Substrate and GPP as Donor

Six triple mutants (E09 carrying A53T_M106E_Q161S mutations; D12 carrying A53T_E112D_G205M; C06 carrying Q161A_M162F_Q295A; C11 carrying E112D_L219F_V294F; G12 carrying A17T_Q161W_A232S; and A09 carrying V49A_Q161S_V294A) had improved activity vs. the WT ORF2, based on FIG. 55. Out of these, A09 and E09 were targeted for “breakdown” analysis. For each parental clone targeted six unique mutants are generated (3 doubles and 3 singles). The % enzymatic activity when using O as substrate and GPP as donor was calculated for each of the single and double mutants derived from the breakdown analysis of E09 and A09. FIGS. 78 and 79 depict the % activity for the mutants derived from the breakdown of E09 (FIG. 78); and A09 (FIG. 79) triple mutant clones.

In a similar fashion, breakdown of the other triple mutants—D12, C06, C11 and G12—will be performed; and the % activity for the mutants derived from the breakdown of D12, C06, C11 and G12 will analyzed as described above.

From the analysis of the breakdown mutants of E09 and A09, the following sites were identified as target residues for site saturation: V294, Q161, and A53. Site-saturated mutants of Q161, and A53 described in Examples 1 and 2 were analyzed to determine their % enzymatic activity as compared to WT ORF2 using O as substrate and GPP as donor. These results are depicted in FIG. 80 (Q161) and FIG. 81 (A53). From the results described above, multiple mutations of A53 and Q161 that have significantly higher % activity for producing CBG, as compared to WT ORF2, were identified. Thus, the ORF2 mutants disclosed herein have unexpectedly superior enzymatic functions, in a reaction using O as a substrate and GPP as donor, as compared to WT ORF2.

Site-saturated mutagenesis will be done in the same manner for V294; and % activity will be measured for each of these site saturated mutants.

Example 8: Analysis of ORF2 Mutant Function at pH 5.3

The library of tripleton mutants was screened for the ability to produce CBGA and 5-GOA using OA as substrate and Geranyl pyrophosphate (GPP) as donor at pH 5.3; and this enzymatic activity was compared to that of the WT ORF2. Table 30 provides the summary of the analysis performed on the enzymatic activity of the ORF2 triple mutants to produce CBG and 5-GO using O as substrate and Geranyl pyrophosphate (GPP) as donor.

TABLE 30 5- GOA CBGA Pro- CLONE nMol nMol 5- Total % % Produc- % 5- duc- ID Mutations CBGA 5-GOA CBGA GOA Product CBGA Activity tion GOA tion F08 A53T_N173D_ 1.857 0.0154 0.489070319 0.010166359 0.499236677 98.0% 70.98% 0.70 2.04% 0.01 S214R H02 A53Q_S177W_ 0.7295 0.1064 0.192125362 0.070240296 0.262365658 73.2% 37.30% 0.27 26.77% 0.10 L219F E09 A53T_M106E_ 0.7007 0.8385 0.184540427 0.553538421 0.738078848 25.0% 104.94% 0.26 75.00% 0.79 Q161S D12 A53T_E112D_ 0.6102 3.8502 0.16070582 2.541721679 2.7024275 5.9% 384.22% 0.23 94.05% 3.61 G205M G12 A17T_Q161W_ 0.2702 0.0566 0.071161443 0.037364669 0.108526112 65.6% 15.43% 0.10 34.43% 0.05 A232S C11 E112D_L219F_ 0.2299 1.1166 0.060547801 0.737127013 0.797674814 7.6% 113.41% 0.09 92.41% 1.05 V294F D06 A53E_Q161A_ 0.1929 2.8479 0.050803266 1.880050172 1.930853437 2.6% 274.52% 0.07 97.37% 2.67 V294N H10 M162A_N173D_ 0.1834 2.5826 0.04830129 1.704911539 1.75321283 2.8% 249.26% 0.07 97.24% 2.42 S214F A09 V49A_Q161S_ 0.1672 0.1311 0.044034764 0.086546079 0.130580843 33.7% 18.57% 0.06 66.28% 0.12 V294A D04 A53T_D166E_ 0.1279 0.1365 0.033684488 0.090110906 0.123795393 27.2% 17.60% 0.05 72.79% 0.13 Q295W C06 Q161A_M162F_ 0.0891 0.0334 0.023465894 0.022049115 0.04551501 51.6% 6.47% 0.03 48.44% 0.03 Q295A H11 A108G_Q161S_ 0.0876 0.12 0.023070845 0.079218379 0.102289224 22.6% 14.54% 0.03 77.45% 0.11 G205M F09 Q38G_D166E_ 0.0852 0.0626 0.022438767 0.041325588 0.063764355 35.2% 9.07% 0.03 64.81% 0.06 Q295A C12 N173D_F213M_ 0.0617 10.6898 0.016249671 7.056905202 7.073154873 0.2% 1005.62% 0.02 99.77% 10.03 V294F A02 Q38G_E112D_ 0.0427 0.4286 0.01124572 0.282941642 0.294187363 3.8% 41.83% 0.02 96.18% 0.40 F123H D11 F123H_L174V_ 0.0427 0.0282 0.01124572 0.018616319 0.029862039 37.7% 4.25% 0.02 62.34% 0.03 S177E H05 S177E_S214R_ 0.0367 0.0116 0.009665525 0.007657777 0.017323302 55.8% 2.46% 0.01 44.21% 0.01 R228E A10 V49S_K118Q_ 0.0302 0.0096 0.007953648 0.00633747 0.014291118 55.7% 2.03% 0.01 44.35% 0.01 S177E H09 E112G_G205M_ 0.0255 0.22 0.006715828 0.145233694 0.151949523 4.4% 21.60% 0.01 95.58% 0.21 L298W H03 A17T_F213M_ 0.0215 0.0107 0.005662365 0.007063639 0.012726004 44.5% 1.81% 0.01 55.51% 0.01 S214R C03 V49L_S214R_ 0.0127 0.009 0.003344746 0.005941378 0.009286124 36.0% 1.32% 0.00 63.98% 0.01 V271E G04 D227E_R228E_ 0.011 0.0485 0.002897024 0.032017428 0.034914452 8.3% 4.96% 0.00 91.70% 0.05 L298Q H06 V49L_E112D_ 0.0109 0.0105 0.002870687 0.006931608 0.009802296 29.3% 1.39% 0.00 70.71% 0.01 G286E H08 M106E_M162A_ 0.0094 0.0425 0.002475639 0.028056509 0.030532148 8.1% 4.34% 0.00 91.89% 0.04 Y216A G02 A53E_F213M_ 0.0092 0.2181 0.002422965 0.143979403 0.146402369 1.7% 20.81% 0.00 98.34% 0.20 R228Q B09 C25V_F213M_ 0.0087 0.0575 0.002291283 0.037958806 0.040250089 5.7% 5.72% 0.00 94.31% 0.05 Y216A G05 A53T_K118N_ 0.0078 0.0297 0.002054253 0.019606549 0.021660802 9.5% 3.08% 0.00 90.52% 0.03 S214F B08 K118Q_L174V_ 0.0067 0.0208 0.001764551 0.013731186 0.015495737 11.4% 2.20% 0.00 88.61% 0.02 R228Q E10 E112D_K119A_ 0.0061 0.0176 0.001606531 0.011618696 0.013225227 12.1% 1.88% 0.00 87.85% 0.02 N173D D08 E112D_K119A_ 0.0056 0.1394 0.001474849 0.09202535 0.093500198 1.6% 13.29% 0.00 98.42% 0.13 N173D A08 C25V_A232S_ 0.0054 0.0077 0.001422175 0.005083179 0.006505355 21.9% 0.92% 0.00 78.14% 0.01 V271E G03 L219F_Y283L_ 0.0053 0.0402 0.001395839 0.026538157 0.027933996 5.0% 3.97% 0.00 95.00% 0.04 L298W G06 K118Q_F123A_ 0.0047 0.0306 0.001237819 0.020200687 0.021438506 5.8% 3.05% 0.00 94.23% 0.03 R228E H01 K119A_Q161A_ 0.0038 0.0277 0.00100079 0.018286242 0.019287033 5.2% 2.74% 0.00 94.81% 0.03 R228Q G08 F123W_M162F_ 0.0033 0.0004 0.000869107 0.000264061 0.001133168 76.7% 0.16% 0.00 23.30% 0.00 C209G B04 A53E_A108G_ 0.0029 0.0075 0.000763761 0.004951149 0.00571491 13.4% 0.81% 0.00 86.64% 0.01 K118N B10 M106E_Y121W_ 0.0028 0.0102 0.000737424 0.006733562 0.007470986 9.9% 1.06% 0.00 90.13% 0.01 D166E B06 D166E_S177Y_ 0.0021 0.0146 0.000553068 0.009638236 0.010191304 5.4% 1.45% 0.00 94.57% 0.01 S214F C02 K118N_K119A_ 0.0021 0.0038 0.000553068 0.002508582 0.00306165 18.1% 0.44% 0.00 81.94% 0.00 V271E G07 V49S_Y216A_ 0.0021 0.0031 0.000553068 0.002046475 0.002599543 21.3% 0.37% 0.00 78.72% 0.00 V294N B05 A53Q_Y121W_ 0.0019 0.0081 0.000500395 0.005347241 0.005847636 8.6% 0.83% 0.00 91.44% 0.01 A232S G10 V49A_Y121W_ 0.0017 0.004 0.000447722 0.002640613 0.003088335 14.5% 0.44% 0.00 85.50% 0.00 C230S D09 K118N_C209G_ 0.0012 0.0002 0.000316039 0.000132031 0.00044807 70.5% 0.06% 0.00 29.47% 0.00 R228Q B02 V49A_S177Y_ 0.0009 0.0102 0.000237029 0.006733562 0.006970591 3.4% 0.99% 0.00 96.60% 0.01 C209G C09 A108G_K119D_ 0.0009 0.0002 0.000237029 0.000132031 0.00036906 64.2% 0.05% 0.00 35.77% 0.00 L298A B12 A17T_F123W_ 0.0009 0 0.000237029 0 0.000237029 100.0% 0.03% 0.00 0.00% 0.00 L298A D07 K119A_S214G_ 0.0008 0.4619 0.000210693 0.304924743 0.305135435 0.1% 43.38% 0.00 99.93% 0.43 L298A G09 M106E_G205L_ 0.0006 0.0001 0.000158019 6.60153E−05 0.000224035 70.5% 0.03% 0.00 29.47% 0.00 C209G D01 K118Q_Q161W_ 0.0006 0.1332 0.000158019 0.0879324 0.08809042 0.2% 12.52% 0.00 99.82% 0.13 S214F E08 F123H_L274V_ 0.0003 0.0002 7.90097E−05 0.000132031 0.00021104 37.4% 0.03% 0.00 62.56% 0.00 L298A

The amount of CBGA and 5-GOA produced by each of the ORF2 triple mutants at pH 5.3 was measured using HPLC. FIG. 111 shows the total nMols of prenylated products generated using OA as substrate and GPP as donor by each of the ORF2 mutants, and the proportion of CBGA and 5-GOA within the total prenylated products. An exemplary wild type ORF2 replicate is included in the graph for comparison purposes. The results that show that in comparison with WT ORF2, which has low activity at this pH, some of the triple mutants have enhanced activity at this pH.

FIG. 112 shows the % CBGA and %5-GOA within the total prenylated products produced at pH 5.3 by each of the ORF2 triple mutant clones using OA as substrate and GPP as donor. In this graph, the mutant clones are ordered based on decreasing % CBGA (from left to right) they produce, with the % GO depicted in red. The black dashed line on the graph indicates the % CBGA that is produced by the wild type enzyme.

FIG. 113 shows the ORF2 enzymatic activity (using OA as substrate and GPP as donor) of each of the triple mutant ORF2 clones relative to the wild type enzyme at pH 5.3. % activity was calculated by dividing the nMols of total prenylated products produced by a mutant by the nMols of total prenylated products produced by the wild type control, and expressed as a percentage. The black threshold line is the wild type ORF2% activity. The results show that at least 4 mutants have higher % activity at pH 5.3 compared to WT ORF2.

FIG. 114 shows the CBGA production potential of each of the ORF2 triple mutant clones when using OA as substrate and GPP as donor at pH 5.3. CBGA production potential (interchangeably referred to herein as CBGA production quotient) represents the improvement in CBG production vs. the wild type enzyme. CBGA production potential was calculated by multiplying the % CBGA of the Total Products by the % Activity of each mutant.

In the cluster analysis shown in FIG. 115, high 5-GOA producing mutants at pH 5.3 cluster together towards the right of the graph and high CBGA producing mutants at pH 5.3 cluster towards the left of the graph.

Based on the analysis performed in FIG. 115, the mutants which cluster to the left of the graph were selected for “breakdown” analysis based on the % CBGA produced (Table 31) and % activity (Table 32).

TABLE 31 CBGA Production Targeted Rank Clone for (pH 5.3) ID Mutations Breakdown  1 F08 VA53T_N173D_S214R YES  2 H02 A53Q_S177W_L219F YES  3 E09 A53T_M106E_Q161S YES  5 G12 A17T_Q161W_A232S YES  9 A09 V49A_Q1615_V294A YES 10 D04 A53T_D166E_Q295W YES 11 C06 Q161A_M162F_Q295A YES 12 H11 A108G_Q1615_G205M YES 13 F09 Q38G_D166E_Q295A YES 16 Dll F123H_L174V_S177E YES 17 H05 S177E_S214R_R228E YES 18 A10 V495_K118Q_S177E YES 20 H03 A17T_F213M_S214R YES

TABLE 32 % Activity Targeted Rank Clone for (pH 5.3) ID Mutations Breakdown 1 C12 N173D_F213M_V294F YES 2 D12 A53T_E112D_G205M YES 3 D06 A53E_Q161A_V294N YES 4 H10 M162A_N173D_S214F YES 5 C11 E112D_L219F_V294F YES

Each of these triple mutants listed in Tables 31 and 32 will be broken down to their respective single mutants and double mutants; and all the ORF2 mutants thus generated will be analyzed for their activity at pH 5.3.

Finally, ORF2 mutants carrying point substitutions—Q161H, S214H, and Q295H mutations—were analyzed for their % activity and CBGA production potential at pH 5.3. The results surprisingly show that although WT ORF2 has little to no activity and little to no CBGA production potential at pH 5.3, Q161H and S214H have unexpectedly enhanced activity at this acidic pH. See FIG. 161 and Table 33.

TABLE 33 nMol 5- Total % % CBGA % 5- 5-GOA Mutations CBGA 5-GOA nMol CBGA GOA Product CBGA Activity Production GOA Production WT 0.3478 0.9267 0.09159863 0.611763929 0.70336256 13.0% 100.00% 0.13 86.98% 0.87 Q161H 26.7263 0.171 7.038793785 0.11288619 7.151679974 98.4% 1016.78% 10.01 1.58% 0.16 S214H 12.8071 0.0115 3.372952331 0.007591761 3.380544092 99.8% 480.63% 4.80 0.22% 0.01 Q295H 2.0712 2.266 0.545483276 1.49590705 2.041390327 26.7% 290.23% 0.78 73.28% 2.13

Example 9: Amino Acid and Nucleic Acid Sequences

Table 34 lists all the amino acid sequences disclosed herein. Sequence information indicates the amino acid substitution of the sequence in comparison to the WT ORF2 (consensus ORF2).

TABLE 34 Amino acid sequences and their SEQ ID NO SEQ ID SEQ info NO Amino Acid Sequence consensus 1 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG Orf2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA (NPhB) VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A108G_Q 2 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295N_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 98Q VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVNRGQLKAFDSLED** K119A_Q 3 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161S_S17 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKATYAFFPTDNMPGVAELSAIPSMPPA 7E VAENAELFARYGLDKVSMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49S_M1 4 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVSFSMASGRHSTELDFSISVPTSHG 62A_Y28 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 3L VAENAELFARYGLDKVQATSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYLKLGAY YHITDVQRGLLKAFDSLED** K118Q_Q 5 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161W_S2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAFFPTDNMPGVAELSAIPSMPPA 14F VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161A_S 6 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214G_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 94F VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDFQRGLLKAFDSLED** F123W_S 7 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177W_G2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP 86E AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSF SVYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLE AYYHITDVQRGLLKAFDSLED** K118N_N 8 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 173D_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA 95N VAENAELFARYGLDKVQMTSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVNRGLLKAFDSLED** K119A_Q 9 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161A_R2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKATYAFFPTDNMPGVAELSAIPSMPPA 28Q VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q38G_E1 10 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 12D_F12 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGDVTGGFKKTYAHFPTDNMPGVAELSAIPSMPP 3H AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** V49A_S1 11 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 77Y_C20 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 9G VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFGKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K118N_K 12 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 119A_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNATYAFFPTDNMPGVAELSAIPSMPPA 71E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLEYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** L174V_C 13 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 230N_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 98Q VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLNFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGQLKAFDSLED** K119D_S 14 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177E_L21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA 9F VAENAELFARYGLDKVQMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53E_E1 15 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG 12G_R22 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGGVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDELCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53E_F2 16 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG 13M_R22 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8Q VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSMS VYPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A53Q_S1 17 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 77W_L21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 9F VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** F123A_Y 18 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVLFSMASGRHSTELDFSISVPTSHG 283L DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAAFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYLKLGAY YHITDVQRGLLKAFDSLED** C25V_Y1 19 MSEAADVERVYAAMEEAAGLLGVAVARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 21W_M1 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTWAFFPTDNMPGVAELSAIPSMPP 62F AVAENAELFARYGLDKVQFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** V49L_S2 20 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVLFSMASGRHSTELDFSISVPTSHG 14R_V27 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 1E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLEYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** D227E_C 21 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 230N_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 95W VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIERLNFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** G205L_Y 22 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 216A_C2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 30S VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELLLKFCKRSFSV APTLNWETGKIDRLSFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** Q161S_V 23 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294F_L29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8W VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDFQRGWLKAFDSLED** L219F_Y 24 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 283L_L29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8W VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYLKLGAY YHITDVQRGWLKAFDSLED** A17T_F2 25 MSEAADVERVYAAMEETAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 13M_S21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4R VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSMR VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** L219F_V 26 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294N_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 95A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNARGLLKAFDSLED** A53E_A1 27 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG 08G_K11 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA 8N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q38G_E1 28 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 12G_M16 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGGVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 2F VAENAELFARYGLDKVQFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_D1 29 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 66E_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5W VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** L174V_C 30 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 230S_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 94A VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLSFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDAQRGLLKAFDSLED** M106E_G 31 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 286E_L29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8W VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLEAY YHITDVQRGWLKAFDSLED** D227E_R 32 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 228E_L29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8Q VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIEELCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGQLKAFDSLED** M162A_ 33 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG C209G_Y DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 288H VAENAELFARYGLDKVQATSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFGKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** A17T_C2 34 MSEAADVERVYAAMEETAGLLGVAVARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 5V_E112 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGGVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA G VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53Q_Y1 35 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 21W_A23 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTWAFFPTDNMPGVAELSAIPSMPP 2S AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFSVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53Q_S1 36 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 77Y_Y28 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8H VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** F123H_L 37 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 274V_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA 98A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGVTLSPKEEYYKLGA YYHITDVQRGALKAFDSLED** S177W_S 38 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214F_Y2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 83L VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFF VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYLKLGA YYHITDVQRGLLKAFDSLED** A53E_G2 39 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG 05M_L27 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4V VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGVTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_K1 40 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 18N_S21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA 4F VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** 5177E_S2 41 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 14R_R22 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 8E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDELCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K118Q_S 42 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177Y_D2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAFFPTDNMPGVAELSAIPSMPPA 27E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIERLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** D166E_S 43 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177Y_S2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 14F VAENAELFARYGLDKVQMTSMEYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161A_ 44 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG M162F_Q DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 295A VAENAELFARYGLDKVAFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** A53E_Q1 45 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG 61A_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4N VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNQRGLLKAFDSLED** A108G_F 46 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 123W_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP 94A AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDAQRGLLKAFDSLED** A53Q_G2 47 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 05L_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELLLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVNRGLLKAFDSLED** K118Q_F 48 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 123A_R2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAAFPTDNMPGVAELSAIPSMPPA 28E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDELCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49LE_1 49 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVLFSMASGRHSTELDFSISVPTSHG 12D_G28 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGDVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 6E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLEAY YHITDVQRGLLKAFDSLED** G205L_R 50 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 228E_C2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 30N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELLLKFCKRSFSV YPTLNWETGKIDELNFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M162A_ 51 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG D227E_C DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 230S VAENAELFARYGLDKVQATSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIERLSFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** V49L_K1 52 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVLFSMASGRHSTELDFSISVPTSHG 19D_G20 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA 5M VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K119A_S 53 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214G_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKATYAFFPTDNMPGVAELSAIPSMPPA 98A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGALKAFDSLED** Q38G_Y2 54 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 16A_A23 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 2S VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV APTLNWETGKIDRLCFSVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** Q161A_V 55 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 271E_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 95W VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLEYGLTLSPKEEYYKLGAY YHITDVWRGLLKAFDSLED** V49S_Y2 56 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVSFSMASGRHSTELDFSISVPTSHG 16A_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV APTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNQRGLLKAFDSLED** F123A_M 57 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 162F_S21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAAFPTDNMPGVAELSAIPSMPPA 4G VAENAELFARYGLDKVQFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** C25V_A2 58 MSEAADVERVYAAMEEAAGLLGVAVARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 32S_V27 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 1E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFSVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLEYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** K118Q_L 59 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 174V_R2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAFFPTDNMPGVAELSAIPSMPPA 28Q VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49S_S2 60 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVSFSMASGRHSTELDFSISVPTSHG 14G_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** E1l2D_K 61 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 119A_N1 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGDVTGGFKATYAFFPTDNMPGVAELSAIPSMPPA 73D VAENAELFARYGLDKVQMTSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123W_Q 62 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161W_D2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP 27E AVAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIERLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_N1 63 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 73D_S21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4R VAENAELFARYGLDKVQMTSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123W_ 64 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG M162F_C DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP 209G AVAENAELFARYGLDKVQFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFGKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** M106E_ 65 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG M162A_ DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA Y216A VAENAELFARYGLDKVQATSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV APTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49A_Q1 66 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4A VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** C25V_F2 67 MSEAADVERVYAAMEEAAGLLGVAVARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 13M_Y21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 6A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSMS VAPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A108G_K 68 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 119D_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA 98A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGALKAFDSLED** K118N_C 69 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 209G_R2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA 28Q VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFGKRSFSV YPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_M1 70 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 06E_Q16 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 1S VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q38G_D1 71 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 66E_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5A VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** M106E_G 72 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 205L_C2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 09G VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELLLKFGKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** E1l2G_G 73 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 205M_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGGVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 98W VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGWLKAFDSLED** V49S_K1 74 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVSFSMASGRHSTELDFSISVPTSHG 18Q_S17 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAFFPTDNMPGVAELSAIPSMPPA 7E VAENAELFARYGLDKVQMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M106E_Y 75 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 121W_D1 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTWAFFPTDNMPGVAELSAIPSMPPA 66E VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53Q_L2 76 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 74V_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGVTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** V49A_F1 77 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 23A_Y28 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAAFPTDNMPGVAELSAIPSMPPA 8H VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** C25V_F1 78 MSEAADVERVYAAMEEAAGLLGVAVARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 23H_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA 5N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVNRGLLKAFDSLED** K119D_Q 79 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161W_L2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA 98Q VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGQLKAFDSLED** V49A_Y1 80 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 21W_C23 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTWAFFPTDNMPGVAELSAIPSMPP 0S AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLSFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M162A_ 81 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG N173D_S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 214F VAENAELFARYGLDKVQATSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49L_D1 82 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVLFSMASGRHSTELDFSISVPTSHG 66E_L274 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA V VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGVTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49S_K1 83 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVSFSMASGRHSTELDFSISVPTSHG 19D_F21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA 3M VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSMS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** E112D_L 84 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 219F_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGDVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 94F VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDFQRGLLKAFDSLED** F123H_L 85 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 174V_S1 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA 77E VAENAELFARYGLDKVQMTSMDYKKRQVNVYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** E1l2G_F 86 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 123H_S2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGGVTGGFKKTYAHFPTDNMPGVAELSAIPSMPP 14G AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFG VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** F123A_S 87 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177W_G2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAAFPTDNMPGVAELSAIPSMPPA 05L VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELLLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S177W_Y 88 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 288H_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 94N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AHYHITDNQRGLLKAFDSLED** A108G_Q 89 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161S_G2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 05M VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Y121W_S 90 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177Y_G2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTWAFFPTDNMPGVAELSAIPSMPP 86E AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLEA YYHITDVQRGLLKAFDSLED** A17T_F1 91 MSEAADVERVYAAMEETAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 23W_L29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP 8A AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGALKAFDSLED** N173D_F 92 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 213M_V2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 94F VAENAELFARYGLDKVQMTSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSMS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDFQRGLLKAFDSLED** A53T_E1 93 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 12D_G20 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGDVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5M VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q38G_L1 94 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 74V_S21 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4R VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A17T_V4 95 MSEAADVERVYAAMEETAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 9A_C230 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA N VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLNFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A17T_Q1 96 MSEAADVERVYAAMEETAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 61W_A23 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 2S VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFSVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** Q161W_ 97 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG R228Q_Q DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 295W VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** Y288A 98 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA AYHITDVQRGLLKAFDSLED** Y288C 99 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA CYHITDVQRGLLKAFDSLED** Y288D 100 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA DYHITDVQRGLLKAFDSLED** Y288E 101 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAE YHITDVQRGLLKAFDSLED** Y288F 102 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAF YHITDVQRGLLKAFDSLED** Y288G 103 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA GYHITDVQRGLLKAFDSLED** Y288H 104 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** Y288I 105 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAI YHITDVQRGLLKAFDSLED** Y288K 106 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA KYHITDVQRGLLKAFDSLED** Y288L 107 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAL YHITDVQRGLLKAFDSLED** Y288M 108 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA MYHITDVQRGLLKAFDSLED** Y288N 109 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA NYHITDVQRGLLKAFDSLED** Y288P 110 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAP YHITDVQRGLLKAFDSLED** Y288Q 111 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA QYHITDVQRGLLKAFDSLED** Y288R 112 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA RYHITDVQRGLLKAFDSLED** Y288S 113 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAS YHITDVQRGLLKAFDSLED** Y288T 114 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAT YHITDVQRGLLKAFDSLED** Y288V 115 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA VYHITDVQRGLLKAFDSLED** Y288W 116 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA WYHITDVQRGLLKAFDSLED** Y288Y 117 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161A 118 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161C 119 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVCMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161D 120 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVDMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161E 121 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVEMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161F 122 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVFMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161G 123 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVGMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161H 124 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVHMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161I 125 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVIMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161K 126 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVKMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161L 127 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVLMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161M 128 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVMMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161N 129 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVNMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161P 130 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVPMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161Q 131 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161R 132 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVRMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161S 133 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161T 134 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVTMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161V 135 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVVMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161W 136 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161Y 137 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVYMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q295A 138 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** Q295C 139 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVCRGLLKAFDSLED** Q295D 140 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVDRGLLKAFDSLED** Q295E 141 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVERGLLKAFDSLED** Q295F 142 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVFRGLLKAFDSLED** Q295G 143 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVGRGLLKAFDSLED** Q295H 144 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVHRGLLKAFDSLED** Q295I 145 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVIRGLLKAFDSLED** Q295K 146 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVKRGLLKAFDSLED** Q295L 147 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVLRGLLKAFDSLED** Q295M 148 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVMRGLLKAFDSLED** Q295N 149 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVNRGLLKAFDSLED** Q295P 150 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVPRGLLKAFDSLED** Q295Q 151 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q295R 152 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVRRGLLKAFDSLED** Q295S 153 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVSRGLLKAFDSLED** Q295T 154 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVTRGLLKAFDSLED** Q295V 155 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVVRGLLKAFDSLED** Q295W 156 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** Q295Y 157 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVYRGLLKAFDSLED** S214A 158 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFAV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214C 159 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFCV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214D 160 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFDV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214E 161 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFEV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214F 162 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214G 163 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214H 164 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFHV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214I 165 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFIV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214K 166 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFKV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214L 167 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFLV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214M 168 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFM VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** S214N 169 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFNV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214P 170 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFPV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214Q 171 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFQV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVORGLLKAFDSLED** S214R 172 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214S 173 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214T 174 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFTV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214V 175 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFVV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214W 176 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFW VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** S214Y 177 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFYV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53A 178 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53C 179 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMCSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53D 180 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMDSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53E 181 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMESGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53F 182 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMFSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53G 183 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMGSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53H 184 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMHSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53I 185 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMISGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53K 186 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMKSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53L 187 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMLSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53M 188 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMMSGRHSTELDFSISVPTSH GDPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPP AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A53N 189 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMNSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53P 190 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMPSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53Q 191 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53R 192 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMRSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53S 193 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMSSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T 194 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53V 195 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMVSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53W 196 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMWSGRHSTELDFSISVPTSH GDPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPP AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A53Y 197 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMYSGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V294N_ 198 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNQRGLLKAFDSLED** L219F_V 199 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294N DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNQRGLLKAFDSLED** L219F_Q 200 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** V294N_Q 201 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNARGLLKAFDSLED** L219F 202 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V49A 203 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V294A 204 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** V49A_V2 205 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 94A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** Q161S_V 206 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** V49A_Q1 207 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 61S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S177Y 208 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Y288H 209 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** A53Q_Y2 210 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 88H DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** S177Y_Y 211 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 288H DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA HYHITDVQRGLLKAFDSLED** A53Q_S1 212 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 77Y DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFYELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** D166E 213 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_Q2 214 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 95W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** D166E_Q 215 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** A53T_ 216 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG D166E DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123H 217 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** L174V 218 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S177E 219 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123H_S 220 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177E DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** L174V_S 221 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177E DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNVYFEELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123H_L 222 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 174V DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAHFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNVYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M106E 223 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_Q1 224 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M106E_Q 225 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_M1 226 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 06E DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSEFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q38G 227 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** D166E 228 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q295A 229 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** Q38G_Q2 230 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 95A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** D166E_Q 231 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** Q38G_D1 232 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFGDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 66E DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMEYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K118N 233 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214F 234 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_S2 235 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 14F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K118N_S 236 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFFV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_K1 237 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 18N DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S177W 238 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** L219F_ 239 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG S177W_L DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** 219F 240 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A53Q_S1 241 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 77W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** A53Q_L2 242 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMQSGRHSTELDFSISVPTSHG 19F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTFNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A108G 243 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** G205M 244 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A108G_G 245 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 205M DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161S_G 246 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 205M DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELMLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A108G_Q 247 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 161S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFGIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** K118Q 248 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFQKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** M162A 249 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQATSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Y283L 250 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYLKLGAY YHITDVQRGLLKAFDSLED** V271E 251 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLEYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** K119D 252 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKDTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** L274V 253 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGVTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A232S 254 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFSVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** Q161A 255 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVAMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** G205L 256 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELLLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214G 257 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFGV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Y216A 258 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV APTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** N173D 259 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVDLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123W 260 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAWFPTDNMPGVAELSAIPSMPP AVAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** K118N 261 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFNKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** R228Q 262 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDQLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161W 263 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVWMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** V294F 264 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDFQRGLLKAFDSLED** S214R 265 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** G286E 266 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLEAY YHITDVQRGLLKAFDSLED** R228E 267 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDELCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** C230S 268 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLSFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** D227E 269 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIERLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGAY YHITDVQRGLLKAFDSLED** M162F 270 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQFTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** F123A 271 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAAFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_V2 272 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 94A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** A53T_Q1 273 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4A VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAQRGLLKAFDSLED** A53T_Q1 274 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4N VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNQRGLLKAFDSLED** A53T_Q2 275 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 95A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** Q161S_V 276 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294A_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 95A VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAARGLLKAFDSLED** A53T_Q1 277 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5A VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVARGLLKAFDSLED** A53T_V2 278 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 94A_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5A VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAARGLLKAFDSLED** A53T_Q1 279 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4A_Q295 VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV A YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAARGLLKAFDSLED** A53T_Q1 280 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4N_Q295 VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV A YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNARGLLKAFDSLED** A53T_Q2 281 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 95W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** Q161S_V 282 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 294A_Q2 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 95W VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAWRGLLKAFDSLED** A53T_Q1 283 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5W VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVWRGLLKAFDSLED** A53T_V2 284 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 94A_Q29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 5W VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAWRGLLKAFDSLED** A53T_Q1 285 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4A_Q295 VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV W YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDAWRGLLKAFDSLED** A53T_Q1 286 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S_V29 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA 4N_Q295 VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV W YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDNWRGLLKAFDSLED** S177W_Q 287 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295A DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVARGLLKAFDSLED** S177W_S 288 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214R DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFR VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** Q161S_S 289 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 177W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_S1 290 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 77W DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFWELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFS VYPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLG AYYHITDVQRGLLKAFDSLED** V49A_Q2 291 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 95L DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVLRGLLKAFDSLED** V49A_S2 292 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 14R DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_Q2 293 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 95F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVFRGLLKAFDSLED** A53T_S2 294 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 14R DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** A53T_Q1 295 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMTSGRHSTELDFSISVPTSHG 61S DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** Q161S_Q 296 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVFRGLLKAFDSLED** Q161S_Q 297 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295L DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVLRGLLKAFDSLED** Q161S_S 298 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 214R DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED** S214R_Q 299 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVVFSMASGRHSTELDFSISVPTSHG 295F DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVQMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFRV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVFRGLLKAFDSLED** V49A_Q1 300 MSEAADVERVYAAMEEAAGLLGVACARDKIYPLLSTFQDTLVEGGSVVAFSMASGRHSTELDFSISVPTSHG 615 DPYATVVEKGLFPATGHPVDDLLADTQKHLPVSMFAIDGEVTGGFKKTYAFFPTDNMPGVAELSAIPSMPPA VAENAELFARYGLDKVSMTSMDYKKRQVNLYFSELSAQTLEAESVLALVRELGLHVPNELGLKFCKRSFSV YPTLNWETGKIDRLCFAVISNDPTLVPSSDEGDIEKFHNYATKAPYAYVGEKRTLVYGLTLSPKEEYYKLGA YYHITDVQRGLLKAFDSLED**

Table 35 lists all the nucleic acid sequences disclosed herein. The protein sequence (WT or mutant ORF2) encoded by the respective nucleic acid sequence is provided in Column 1 of Table 35.

TABLE 35 Nucleic acid sequences and their SEQ ID NO SEQ SEQ ID info NO DNA Sequence Consensus 301 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Orf2 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG (NphB) TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 302 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG N_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTAACCGTGGCCAGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119A_ 303 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S_S177 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGCGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49S_ 304 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M162A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCA Y283 GCTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA L TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACCTGAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118Q_ 305 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_S21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161A_ 306 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG G_V29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACTTCCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123W_ 307 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_G2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 86E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGAGGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N_ 308 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT N173 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG D_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTAACCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119A_ 309 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_R22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGCGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 310 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT E112D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F123 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA H TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGACGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 311 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177Y_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG C209 CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA G TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCGGTAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N_ 312 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K119 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_V27 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 1E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACGCGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGAGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L174V_ 313 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT C230 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG N_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAACTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCAGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119D_ 314 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_L21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 9F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E_ tag ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT E112G_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG R228 TTTTTAGCATGGAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGGTGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACGAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E_ 316 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F213M_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG R228 TTTTTAGCATGGAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCATGAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 317 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177W_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L219 TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123A_ 318 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y283 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCC L TGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACCTGAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA C25V_ 319 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y121 GTTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_M1 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 62F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTGG GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49L_ 320 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214R_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCC V271 TGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTCGTGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGAGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D227E_ 321 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT C230 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG N_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGCGCCTGAACTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA G205L_ 322 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y216 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_C23 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 0S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 323 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACTTCCAACGTGGCTGGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F_ 324 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y283 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACCTGAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCTGGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A17T_ 325 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAACCGCCGGTTTGCTGGGTGTGGCT F213M_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S214 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA R TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCATGCGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F_ 326 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG N_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACAACGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E_ 327 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT A108G_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG K118 TTTTTAGCATGGAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 328 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT E112G_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG M162 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGGTGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 329 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D166E_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L174V_ 330 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT C230 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S_V29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E_ 331 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G286 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGAGGCGTACTACCACA TTACCGACGTTCAACGTGGCTGGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D227E_ 332 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT R228 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGGAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCAGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M162A_ 333 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT C209 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG G_Y28 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8H TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCGGTAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A17T_ 334 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAACCGCCGGTTTGCTGGGTGTGGCT C25V_ GTTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E112G TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGGTGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 335 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y121 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_A2 TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 32S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTGG GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTAGCGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 336 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177Y_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y288 TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA H TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123H_ 337 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L274 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTGTTACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCGCGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W_ 338 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214F_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y283 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA L TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACCTGAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E_ 339 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205M_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L274 TTTTTAGCATGGAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA V TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTGTTACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 340 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K118N_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S214F TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177E_ 341 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG R_R22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTCGTGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACGAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118Q_ 342 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y_D22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 7E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D166E_ 343 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y_S21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161A_ 344 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M162 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E_ 345 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGGAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACAACCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 346 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F123 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_V2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 94A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 347 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205L_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTAACCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118Q_ 348 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F123 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_R22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACGAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49L_ 349 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT E112D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCC G286 TGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGACGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGAGGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA G205L_ 350 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT R228 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_C23 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 0N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACGAGCTGAACTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M162A_ 351 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D227 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_C23 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 0S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGCGCCTGAGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49L_ 352 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K119D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCC G205 TGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA M TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119A_ 353 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG G_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGCGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCGCGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 354 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y216A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A232 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTAGCGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161A_ 355 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V271 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGAGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49S_ 356 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y216A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCA V294 GCTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACAACCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123A_ 357 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M162 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F_S214 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA G TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA C25V_ 358 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT A232S_ GTTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V271 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTAGCGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGAGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118Q_ 359 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L174 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V_R22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49S_ 360 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214G_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCA V294 GCTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA E112D_ 361 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K119 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_N17 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 3D TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGACGTCACGGGCGGTTTCAAAGCGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123W_ 362 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_D2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 27E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 363 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT N173D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S214 TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA R TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTCGTGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123W_ 364 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M162 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F_C20 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 9G TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCGGTAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E_ 365 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M162 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_Y21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 6A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 366 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA C25V_ 367 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F213M_ GTTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y216 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCATGAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 368 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K119 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG D_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCGCGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N_ 369 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT C209 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG G_R22 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCGGTAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 370 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M106E_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q161 TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 371 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D166E_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E_ 372 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L_C20 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 9G TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCGGTAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA E112G_ 373 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG M_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGGTGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCTGGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49S_ 374 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K118Q_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCA S177 GCTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E_ 375 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y121 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_D1 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 66E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTGG GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 376 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L274V_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTGTTACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 377 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F123A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Y288 CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA H TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA C25V_ 378 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F123H_ GTTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTAACCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119D_ 379 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_L29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 8Q TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCAGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 380 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y121 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_C23 CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 0S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTGG GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M162A_ 381 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT N173 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG D_S21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49L_ 382 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D166E_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCC L274 TGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA V TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTGTTACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49S_ 383 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K119D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCA F213 GCTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA M TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCATGAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA E112D_ 384 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L219 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F_V29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGACGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACTTCCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123H_ 385 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L174 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V_S17 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 7E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA E112G_ 386 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F123 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG H_S21 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4G TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGGTGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123A_ 387 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_G2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 05L TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W_ 388 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y288 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG H_V29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4N TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACAACCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 389 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S_G20 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5M TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y121 390 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT W_S17 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG 7YG2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 86E TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTGG GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGAGGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A17T_ 391 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAACCGCCGGTTTGCTGGGTGTGGCT F123W_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L298 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCGCGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA N173D_ 392 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT F213 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG M_V29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 4F TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCATGAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACTTCCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 393 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT E112D_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG G205 TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA M TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGACGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 394 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L174V_   TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S214 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA R TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTCGTGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A17T_ 395 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAACCGCCGGTTTGCTGGGTGTGGCT V49A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG C230N CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAACTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A17T_ 396 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAACCGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W_A2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 32S TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTAGCGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161 397 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT W_R22 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG 8Q_Q2 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 95W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288A 398 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGgcaTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288C 399 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGtgtTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288D 400 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGgatTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288E 401 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGgaaTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288F 402 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGtttTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288G 403 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGggtTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288H 404 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGcatTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288I 405 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGattTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288K 406 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGaaaTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288L 407 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGctgTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288M 408 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGatgTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288N 409 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGaatTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288P 410 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGccgTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288Q 411 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGcagTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288R 412 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGcgtTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288S 413 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGagcTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288T 414 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGaccTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288V 415 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGgttTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288W 416 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGtggTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288Y 417 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGtatTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161A 418 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGgcaATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161C 419 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGtgtATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161D 420 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGgatATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161E 421 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGgaaATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161F 422 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGtttATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161G 423 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGggtATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161H 424 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGcatATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161I 425 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGattATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161K 426 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGaaaATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161L 427 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGctgATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161M 428 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGatgATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161N 429 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGaatATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161P 430 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGccgATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161Q 431 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGcagATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161R 432 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGcgtATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S 433 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161T 434 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGaccATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161V 435 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGgttATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161W 436 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGtggATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161Y 437 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGtatATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295A 438 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgcaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295C 439 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtgtCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295D 440 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgatCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295E 441 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgaaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295F 442 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtttCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295G 443 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTggtCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295H 444 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTcatCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295I 445 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTattCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295K 446 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTaaaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295L 447 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTctgCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295M 448 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTatgCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295N 449 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTaatCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295P 450 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTccgCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295Q 451 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTcagCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295R 452 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTcgtCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295S 453 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTagcCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295T 454 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTaccCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295V 455 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgttCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295W 456 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295Y 457 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtatCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214A 458 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTgcaGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214C 459 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTtgtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214D 460 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTgatGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214E 461 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTgaaGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214F 462 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTtttGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214G 463 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTggtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214H 464 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcatGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214I 465 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTattGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214K 466 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTaaaGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214L 467 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTctgGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214M 468 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTatgGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214N 469 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTaatGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214P 470 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTccgGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214Q 471 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcagGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214R 472 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcgtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214S 473 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTagcGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214T 474 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTaccGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214V 475 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTgttGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214W 476 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTtggGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214Y 477 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTtatGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53A 478 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgcaAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53C 479 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGtgtAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53D 480 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgatAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53E 481 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgaaAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53F 482 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGtttAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53G 483 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGggtAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53H 484 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGcatAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53I 485 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGattAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53K 486 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaaaAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53L 487 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGctgAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53M 488 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGatgAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53N 489 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaatAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53P 490 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGccgAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q 491 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGcagAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53R 492 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGcgtAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53S 493 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGagcAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T 494 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53V 495 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgttAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53W 496 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGtggAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Y 497 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGtatAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGATC CTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACAC GCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATGC TTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGCC GAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V294N 498 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCc tgAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACAACcaaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F_ 499 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG N TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACAACcaaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F_ 500 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACgttGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V294N_ 501 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCc tgAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACAACGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F 502 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC TTCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACgttcaaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A 503 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V294A 504 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 505 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294A TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 506 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGCGCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 507 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177Y 508 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y288H 509 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 510 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y288H TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177Y_ 511 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Y288 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG H TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGCACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 512 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177Y TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTACGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D166E 513 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 514 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D166E_ 515 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTTGGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 516 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D166E TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123H 517 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L174V 518 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177E 519 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123H_ 520 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L174V_ 521 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG E TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCGAGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123H_ 522 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L174 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTCACTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACGTTTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E 523 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 524 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M106E_ 525 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 526 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT M106E TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCGAGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G 527 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D166E 528 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q295A 529 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 530 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295A TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D166E_ 531 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTGCGCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q38G_ 532 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT D166E TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTGGTGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGAGTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N 533 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214F 534 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 535 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214F TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N_ 536 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214F TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTTTCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 537 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT K118N TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGACCAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W 538 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgctAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCcT gAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAGC AGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAAG CGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L219F 539 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGgctAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCagcGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCTTC AACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAGC AGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAAG CGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W_ 540 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L219 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F TTTTTAGCATGgctAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCT TCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 541 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177W TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCTGGGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCc tgAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53Q_ 542 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT L219F TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGCAGAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCagcGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCT TCAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G 543 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA G205M 544 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 545 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG M TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 546 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT G205 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG M TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGATGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A108G_ 547 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG S TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGGTATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGAGCATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118Q 548 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCCAGAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M162A 549 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGGCGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y283L 550 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACCTGAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V271E 551 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGAGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K119D 552 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAGACACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA L274V 553 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTGTTACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A232S 554 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTAGCGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161A 555 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGGCGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA G205L 556 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGCTGCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214G 557 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTGGTGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Y216A 558 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTGCGCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA N173D 559 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAGACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123W 560 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTGGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA K118N 561 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAACAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA R228Q 562 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161W 563 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGTGGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V294F 564 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACTTCCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214R 565 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTCGTGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA G286E 566 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGAGGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA R228E 567 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACGAGCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA C230S 568 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGAGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA D227E 569 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGAGCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCG AGCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAG AAGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCAC ATTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA M162F 570 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGTTCACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA F123A 571 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTGCGTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 572 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294A TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGcgCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T 573 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT A CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGcgCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 574 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT Nqq CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACaacCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 575 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295A TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgcACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 576 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5A TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGcggcaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 577 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT A CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTgcACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 578 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT A CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGcggcACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 579 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT A_Q29 CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA 5A CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGcggcACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 580 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT N_Q29 CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA 5A CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACaacgcACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 581 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 582 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG A_Q29 TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA 5W TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGcgtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 583 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT W CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 584 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT V294A_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG Q295 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT W CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGcgtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 585 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT A_Q29 CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA 5W CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT   GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGcgtggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 586 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S_ TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG V294 TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT N_Q29 CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA 5W CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACaactggCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W_ 587 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q29S TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCtGgGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTgcaCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S177W_ 588 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG R TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCtGgGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcgtGTTTACCCGACCCTG AACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAGC AGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAAG CGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACATT ACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 589 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG W TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCtGgGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 590 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S177W TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCtGgGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 591 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295L TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACC CTGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCtgCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 592 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214R TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcGtGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 593 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295F TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtttCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 594 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214R TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcGtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA A53T_ 595 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT A161S TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG TTTTTAGCATGaccAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGAT CCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGACA CGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTATG CTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGGC CGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACGC CAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGTG AGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 596 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTtttCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 597 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG L TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCtgCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA Q161S_ 598 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT S214 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG R TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcGtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA S214R_ 599 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q295 TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG F TTTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGCAGATGACCAGCATGGATTACAAGAAAC GCCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCG TGAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTcgtGTTTACCCGACCCT GAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGAG CAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGAA GCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACAT TACCGACGTTtttCGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA V49A_ 600 ATGAGCGAAGCGGCGGACGTCGAACGTGTTTATGCAGCGATGGAAGAAGCAGCCGGTTTGCTGGGTGTGGCT Q161S TGTGCGCGTGATAAGATTTATCCACTGCTGAGCACTTTTCAAGACACGCTGGTCGAGGGTGGCTCGGTGGTCG CGTTTAGCATGGCTAGCGGTCGCCACAGCACCGAGCTGGACTTCTCCATCTCCGTCCCGACCAGCCACGGTGA TCCTTACGCCACCGTTGTGGAGAAAGGTCTGTTCCCGGCGACCGGCCACCCGGTCGACGATCTGCTGGCCGAC ACGCAAAAGCATCTGCCGGTGAGCATGTTCGCAATTGATGGTGAGGTCACGGGCGGTTTCAAAAAGACCTAT GCTTTCTTTCCGACCGACAATATGCCTGGCGTTGCGGAGCTGAGCGCGATCCCGTCTATGCCGCCAGCGGTGG CCGAGAATGCAGAGCTGTTCGCTCGTTACGGTCTGGATAAGGTGagcATGACCAGCATGGATTACAAGAAACG CCAGGTAAACCTGTATTTCAGCGAGCTGTCTGCACAGACGCTCGAAGCGGAGTCCGTTTTGGCACTGGTGCGT GAGTTGGGTCTGCACGTTCCGAATGAATTGGGTCTGAAATTCTGCAAGCGTAGCTTTAGCGTTTACCCGACCC TGAACTGGGAAACCGGCAAGATTGACCGCCTGTGCTTTGCGGTGATCAGCAACGATCCGACGCTGGTTCCGA GCAGCGATGAAGGCGACATCGAGAAATTTCATAACTATGCAACTAAAGCGCCGTACGCCTATGTCGGTGAGA AGCGCACGCTGGTGTACGGTCTGACCCTGAGCCCGAAAGAAGAGTACTATAAGCTGGGCGCGTACTACCACA TTACCGACGTTCAACGTGGCCTGCTGAAAGCGTTTGACTCTTTGGAAGATTAATGA 

1.-30. (canceled)
 31. A recombinant polypeptide, comprising an amino acid sequence with at least 95% identity to SEQ ID NO: 1, wherein said amino acid sequence comprises an amino acid substitution to SEQ ID NO: 1 at a position selected from the group consisting of Q161Y, Q161F, Q161K, Q161T, S214R, S214D, S214E, S214N, S214K, S214Q, S214T, Y288F, Y288L, Y288M, Y288P, Y288T, Y288W, Y288C, Y288G, Q295F, Q295H, Q295I, Q295L, Q295Y, and Q295D, wherein said recombinant polypeptide converts DVA and geranyl diphosphate (GPP) to cannabigerovarinic acid (CBGVA) and 5-GDVA, and wherein said recombinant polypeptide has a CBGVA production potential that is higher than wild-type ORF2 enzyme under the same condition.
 32. The recombinant polypeptide of claim 31, wherein said amino acid substitution is selected from the group consisting of Q161Y, Q161F, Q161K, and Q161T.
 33. The recombinant polypeptide of claim 31, wherein said amino acid substitution is selected from the group consisting of Q295F, Q295H, Q295I, Q295L, Q295Y and Q295D.
 34. The recombinant polypeptide of claim 31, wherein said amino acid substitution is selected from the group consisting of S214R, S214D, S214E, S214N, S214K, S214Q, and S214T.
 35. The recombinant polypeptide of claim 31, wherein said amino acid substitution is selected from the group consisting of Y288F, Y288L, Y288M, Y288P, Y288T, Y288W, Y288C, and Y288G.
 36. The recombinant polypeptide of claim 31, wherein said amino acid sequence comprises two or more amino acid substitutions selected from the group consisting of: A53T and S214R; S177W and Q295A; S214R and Q295F; Q16S and S214R; S177W and S214R; Q161S and Q295L; Q161S and Q295F; V49A and S214R; A53T and Q295F; Q161S and S177W; Q161S, V294A and Q295A; A53T, Q161S and Q295W; A53T and S177W; A53T, V294A and Q295W; A53T and Q295W; Q161S, V294A and Q295W; V49A and Q295L; A53T, Q161S, V294A and Q295W; A53T, Q161S, V294N and Q295A; A53T, Q161S and Q295A; A53T, Q161S, V294A and Q295A; A53T, Q161S, V294N and Q295W; A53T and Q161S; A53T, Q161S and V294A; A53T, Q161S and V294N; and A53T, V294A and Q295A.
 37. The recombinant polypeptide of claim 31, wherein said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 103, 105, 107, 108, 110, 114, 116, 122, 126, 132, 133, 134, 137, 140, 142, 144, 145, 147, 148, 156, 157, 160, 161, 166, 169, 171, 172, 174, 272-274, 276-277, and 279-300.
 38. A recombinant polypeptide, comprising an amino acid sequence with at least 95% identity to SEQ ID NO: 1, wherein said amino acid sequence comprises an amino acid substitution to SEQ ID NO: 1 at a position selected from the group consisting of Q161F, Q161Y, Q161L, Q161M, Q161I, Q161C, Q161T, Q161D, Q161G, Q161W, S214Q, S214E, S214N, S214F, S214I, S214L, S214M, Y288F, Y288L, Y288M, Y288T, Y288C, Y288W, Q295H, Q295G, Q295F, and Q295C, wherein said recombinant polypeptide converts olivetol (O) and geranyl diphosphate (GPP) to cannabigerol (CBG) and 5-GO, and wherein said recombinant polypeptide has a CBG production potential that is higher than wild-type ORF2 enzyme under the same condition.
 39. The recombinant polypeptide of claim 38, wherein said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q295H, Q295G, Q295F, and Q295C.
 40. The recombinant polypeptide of claim 38, wherein said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Q161F, Q161Y, Q161L, Q161M, Q161I, Q161C, Q161T, Q161D, Q161G, and Q161W.
 41. The recombinant polypeptide of claim 38, wherein said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of S214Q, S214E, S214N, S214F, S214I, S214L, and S214M.
 42. The recombinant polypeptide of claim 38, wherein said at least one amino acid substitution to SEQ ID NO: 1 is selected from the group consisting of Y288F, Y288L, Y288M, Y288T, Y288C, and Y288W.
 43. The recombinant polypeptide of claim 38, wherein said amino acid sequence comprises two or more amino acid substitutions selected from the group consisting of: A53T, Q161S, V294A and Q295W; A53T, Q161S and V294A; Q161S and Q295L; A53T and Q295F; A53T and Q295A; A53T, Q161S and V294N; Q161S and Q295F; A53T, Q161S and Q295W; A53T and Q161S; A53T and S177W; Q161S, V294A and Q295W; A53T and V294A; A53T, V294A and Q295W; S177W and Q295A; Q161S and S177W; and A53T and S214R.
 44. The recombinant polypeptide of claim 38, wherein said amino acid sequence is selected from the group consisting of SEQ ID NOs: 99, 102, 105, 107, 108, 114, 116, 119, 120, 122, 123, 125, 127, 128, 133, 134, 136, 137 139, 142, 143, 144, 148, 156, 161, 162, 165, 167, 168, 169, 171, 224, 272, 273, 275, 280, 282, 283, 284, 285, 287, 289, 290, 293, 294, 296, and
 297. 45. A method of producing a prenylation product, comprising: contacting said recombinant polypeptide of claim 31 with a substrate and a donor, thereby producing said prenylation product.
 46. The method of claim 45, wherein said substrate comprises divarinic acid (DVA) and said donor comprises geranyl pyrophosphate (GPP), and wherein said prenylation product comprises CBGVA, 5-GDVA, a prenylated product on any other position on an aromatic ring of said substrate, or any combination thereof.
 47. The method of claim 46, wherein said prenylation product comprises CBGVA and 5-GDVA, and wherein said recombinant polypeptide produces a ratio of an amount of CBGVA to a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same acid condition; a combined amount of CBGVA and 5-GDVA that is higher than wild-type ORF2 enzyme under the same acid condition; or a combination thereof.
 48. A method of producing a prenylation product, comprising: contacting said recombinant polypeptide of claim 38 with a substrate and a donor, thereby producing said prenylation product.
 49. The method of claim 48, wherein said substrate comprises olivetol (O) and said donor comprises geranyl pyrophosphate (GPP), and wherein said prenylation product comprises CBG, 5-GO, a prenylated product on any other position on an aromatic ring of said substrate, or any combination thereof.
 50. The method of claim 49, wherein said prenylation product comprises CBG and 5-GO, and wherein said recombinant polypeptide produces a ratio of an amount of CBG to a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same acid condition; a combined amount of CBG and 5-GO that is higher than wild-type ORF2 enzyme under the same acid condition; or a combination thereof. 